CN204697064U - High-order single-side belt electrooptic modulator - Google Patents

Abstract

A kind of high-order single-side belt electrooptic modulator of field of microwave communication, be made up of two parallel branches, wherein: the first branch road comprises the MZM with Dual Drive connected successively, MZM and the 90 ° phase shifter driven with list, second branch road comprises the MZM with Dual Drive connected successively and the MZM driven with list, obtains corresponding second order single-side band modulation effect by the intensity of the relative differences and radiofrequency signal that adjust the six road signals of telecommunication.The utility model can realize second order single-side band modulation and three rank single-side band modulations, for generation of the optical frequency comb with larger frequency interval, can embody good performance in WDM communication system and optical frequency domain reflectometer.

Description

High-order single-side belt electrooptic modulator

Technical field

The utility model relates to a kind of technology of field of microwave communication, specifically a kind of high-order single-side belt electrooptic modulator.

Background technology

Single-side belt electrooptic modulator has great application in modern optical fiber telecommunications system and sensory field of optic fibre.Because single-side band modulation only retains the sideband of side, so there is the band efficiency of twice in wavelength division multiplexing (WDM) system than common double sideband modulation, also there is stronger resistance to optical non-linear effect.In addition on the one hand, single-side band modulation also may be used for forming circulating frequency shift device recirculating frequency shifter (RFS) for generation of stablizing smooth optical frequency comb.Thisly stablize smooth optical frequency comb and with in a wdm system, the modulation of signal can be carried out as carrier wave.In addition, optical frequency comb also has important application in sensory field of optic fibre: such as in light frequency reflectometer OFDR, and optical frequency comb may be used for increasing the swept frequency range based on the swept light source of external modulation principle, thus increases the spatial resolution of sensing.

Existing Mach increases the integrated single side-band modulator of lithium niobate of Dare interferometer (MZM) structure as shown in Figure 1, realize single-side band modulation [Shimotsu S by the difference of change two-way radiofrequency signal and the phase-shift phase of control phase-shifter, Oikawa S, Saitou T, et al.Single side ?band modulation performance of a LiNbO 3integrated modulator consisting of four ?phase modulator waveguides [J] .Photonics Technology Letters, IEEE, 2001, 13 (4): 364 ?366.].This single side-band modulator can be used in the basic device as shift frequency in RFS structure, produces and stablizes smooth optical frequency comb.Produce light comb principle as shown in Figure 2.After laser enters this loop structure, will carry out continuous print single-side band modulation, just have optical frequency comb at the right-hand member of coupler and produce, the interval between each carrier wave of wherein optical frequency comb equals the frequency of the radiofrequency signal driving single side-band modulator.The optical frequency comb produced may be used for increasing the swept frequency range based on the swept light source of external modulation principle, and the spatial resolution of optical frequency domain reflectometer to be directly proportional [F.Tian with the swept frequency range of swept light source, X.Zhang, J.Li, and L.Xi, J.Lightwave Technol.29,1085 ?1091 (2011)], but the interval that the multiplication factor of swept frequency range can be subject to optical frequency comb limited affected, because in frequency sweep process, high-order sideband frequency sweep can occur overlap and can not use.

In addition in a wdm system, the signal bandwidth of each carrier transmission can be subject to the restriction in carrier spacing, if the such as carrier spacing is 20GHz, the signal bandwidth that so carrier wave can transmit is 10Gbit/s to the maximum, otherwise intercarrier can produce signal disturbing.For prior art bottleneck.

Through finding the retrieval of prior art, open (bulletin) the day 2013.10.23 of Chinese patent literature CN103368654A, disclose a kind of based on the two parallel MZ Mach-Zehnder of Dual Drive (Dual ?Parallel Mach ?Zehnder Modulator, the broadband linear method of microwave photon link DPMZM), comprise: 1) at transmitting terminal, signal of telecommunication part, the electrical signal phase relation between four electrodes of two sub-MZM of control inputs Dual Drive DPMZM; 2) at transmitting terminal, photoelectricity modulating part, the bias point of the sub-MZM of control DPMZM; 3) at receiving terminal, adopt direct-detection, after photodiode (Photodiode, PD) opto-electronic conversion, realize broadband linear; The intensity modulated direct-detection microwave photon link of broadband linear is realized according to above 3.But this technology cannot be directly used in the generation realizing high-order (2 rank single-side belts and 3 rank single-side belts) modulation signal, similarly, this technology more cannot realize the generation of corresponding light frequency comb, particularly cannot realize the optical frequency comb generation that frequency interval reaches more than 50GHz.

Utility model content

The utility model is for prior art above shortcomings, a kind of high-order single-side belt electrooptic modulator is proposed, second order single-side band modulation and three rank single-side band modulations can be realized, for generation of the optical frequency comb with larger frequency interval, good performance can be embodied in WDM communication system and optical frequency domain reflectometer.

The utility model is achieved through the following technical solutions:

The utility model relates to a kind of high-order single-side belt electrooptic modulator, be made up of two parallel branches, wherein: the first branch road comprises the MZM with Dual Drive connected successively, MZM and the 90 ° phase shifter driven with list, second branch road comprises the MZM with Dual Drive connected successively and the MZM driven with list, obtains corresponding second order single-side band modulation effect by the intensity of the relative differences and radiofrequency signal that adjust the six road signals of telecommunication.

The described MZM with Dual Drive comprises: the sub-branch road of a radio-frequency signal generator formation and the sub-branch circuit parallel connection of a radio-frequency signal generator series connection optical phase modulator formation form.

Described is preferably provided with a parallel optical path further with in the MZM of Dual Drive, thus forms trident Mach increasing Dare interferometer.

Described comprises with single MZM driven: the sub-branch road of a radio-frequency signal generator formation and the sub-branch circuit parallel connection of an optical phase modulator formation form.

The input of described high-order single-side belt electrooptic modulator is connected with narrow linewidth laser, and the lasing light emitter wavelength that this narrow linewidth laser exports is 155.52nm, and power is 0dBm.

Described Mach increases Dare intensity modulator bandwidth more than 30GHz.

Described optical phase modulator is for introducing specific additive phase, and insertion loss is no more than 3dB.

Described radio-frequency signal generator, for driving intensity modulator, produces sinusoidal signal bandwidth maximum more than 25GHz.

Described electricity phase shifter is used for making each road signal of telecommunication have fixing relative phase difference to signal of telecommunication phase shift.

Technique effect

Compared with prior art, the utility model can directly based on the driving of radiofrequency signal realize high-order single sideband singal generation, can break through on the basis of high-speed radio-frequency signal, realize frequency interval and increase 2 times even the high-quality light frequency comb of 3 times, thus the frequency interval restriction that electronic bottleneck produces optical frequency comb can be broken through.

Accompanying drawing explanation

Fig. 1 is the structural representation of existing single-side band modulation.

Fig. 2 is circulating frequency shift device structural representation.

In figure: TL is narrow linewidth laser, SSB is single side-band modulator, BPF is optical band pass filter, EDFA is erbium-doped fiber amplifier.

Fig. 3 is second order single-side belt structural representation in embodiment.

Fig. 4 is three rank single-side belt structural representations in embodiment.

Fig. 5 is second order single-side belt spectrogram in embodiment.

Fig. 6 is the circulating frequency shift device spectrogram that in embodiment, second order single-side belt is formed, and carrier frequency separation has been enhanced one times.

Fig. 7 is the graph of a relation of insertion loss and suppress sideband ratio.

Fig. 8 is embodiment 1 effect schematic diagram.

Fig. 9 is carrier component spectrogram in embodiment.

Figure 10 is second order single-side belt spectrogram in embodiment.

Embodiment

Below embodiment of the present utility model is elaborated; the present embodiment is implemented under premised on technical solutions of the utility model; give detailed execution mode and concrete operating process, but protection range of the present utility model is not limited to following embodiment.Following examples are carried out simulation calculation at VPItransmissionMaker platform and are obtained.

Embodiment 1

As shown in Figure 3, the present embodiment relates to a kind of high-order single-side belt electrooptic modulator, be made up of two parallel branches, wherein: the first branch road comprises the MZM with Dual Drive connected successively, MZM and the 90 ° phase shifter driven with list, second branch road comprises the MZM with Dual Drive connected successively and the MZM driven with list, obtains corresponding second order single-side band modulation effect by the intensity of the relative differences and radiofrequency signal that adjust the six road signals of telecommunication.

The described MZM with Dual Drive comprises: the sub-branch road of a radio-frequency signal generator formation and the sub-branch circuit parallel connection of a radio-frequency signal generator series connection optical phase modulator formation form.

Described comprises with single MZM driven: the sub-branch road of a radio-frequency signal generator formation and the sub-branch circuit parallel connection of an optical phase modulator formation form.

The input of described high-order single-side belt electrooptic modulator is connected with narrow linewidth laser, and the lasing light emitter wavelength that this narrow linewidth laser exports is 155.52nm, and power is 0dBm.

In the present embodiment, radio frequency signal frequency is 10GHz.When radio-frequency (RF) signal strength is 0.08 times of modulator half-wave voltage, the suppress sideband ratio of the second order single-side band modulation obtained more than 40dB, the spectrogram after to be 56dB, Fig. 4 the be modulation of the light loss of carrier wave; Heightening radio-frequency (RF) signal strength in embodiment, at suppress sideband than reducing simultaneously, less power loss can be obtained;

When to adjust the intensity of radiofrequency signal be 0.2 times of modulator half-wave voltage, acquisitions insertion loss is 27dB, corresponding suppress sideband than for 17dB, Fig. 5 be modulate after spectrogram.

As shown in Figure 6, through repeatedly changing the intensity of radiofrequency signal, obtain the insertion loss of second order single side-band modulator and the graph of a relation of suppress sideband ratio.

The present embodiment is according to the structure of Fig. 2, and adopt the second order single side-band modulator with the suppress sideband ratio of 33dB as frequency shifter, wherein the frequency of radiofrequency signal is 25GHz, and the optical frequency comb of acquisition is spaced apart 50GHz, and corresponding spectrogram is shown in Fig. 7.

Embodiment 2

As shown in Figure 4, the present embodiment adopts the MZM with Dual Drive in two trident Mach increasing Dare interferometer alternative embodiments 1, and carry out corresponding connection to two with single MZM driven, obtain corresponding three rank single-side band modulation effects by the intensity of the relative differences and radiofrequency signal that adjust the six road signals of telecommunication.

Described trident Mach increases Dare interferometer and comprises: the sub-branch road of a radio-frequency signal generator formation, the sub-branch road of a radio-frequency signal generator series connection optical phase modulator formation and a direct-connected light path are formed in parallel.

The input of described high-order single-side belt electrooptic modulator is connected with narrow linewidth laser, and the lasing light emitter wavelength that this narrow linewidth laser exports is 155.52nm, and power is 0dBm.

In the present embodiment, radio frequency signal frequency is 10GHz, and for reaching the effect of three rank single-side band modulations, the output port increasing Dare interferometer at the Mach of three branches must have three equicohesive carrier components, as shown in Figure 9.

When radio-frequency (RF) signal strength is 0.08 times of modulator half-wave voltage, the suppress sideband ratio of the second order single-side band modulation obtained is more than 40dB, and the light loss of carrier wave is 46dB, as shown in Figure 10.

The present embodiment drives Mach to increase the intensity of the radiofrequency signal of Dare modulator by adjustment, obtain the insertion loss of three rank single-side band modulations and the relation of suppress sideband ratio, as shown in Figure 7, within the specific limits, along with the increase of suppress sideband ratio, insertion loss also presents the linear trend increased.

Claims (5)

1. a high-order single-side belt electrooptic modulator, it is characterized in that, be made up of two parallel branches, wherein: the first branch road comprises the MZM with Dual Drive connected successively, MZM and the 90 ° phase shifter driven with list, second branch road comprises the MZM with Dual Drive connected successively and the MZM driven with list, obtains corresponding second order single-side band modulation effect by the intensity of the relative differences and radiofrequency signal that adjust the six road signals of telecommunication.

2. high-order single-side belt electrooptic modulator according to claim 1, it is characterized in that, the described MZM with Dual Drive comprises: the sub-branch road of a radio-frequency signal generator formation and the sub-branch circuit parallel connection of a radio-frequency signal generator series connection optical phase modulator formation form.

3. high-order single-side belt electrooptic modulator according to claim 1, is characterized in that, described is provided with a parallel optical path with in the MZM of Dual Drive, thus forms trident Mach increasing Dare interferometer.

4. high-order single-side belt electrooptic modulator according to claim 1, is characterized in that, described comprises with single MZM driven: the sub-branch road of a radio-frequency signal generator formation and the sub-branch circuit parallel connection of an optical phase modulator formation form.

5. high-order single-side belt electrooptic modulator according to claim 1, is characterized in that, the input of described high-order single-side belt electrooptic modulator is connected with narrow linewidth laser, and the lasing light emitter wavelength that this narrow linewidth laser exports is 155.52nm, and power is 0dBm.