CN108491016A - A kind of best operating point control device and method of undisturbed electrooptic modulator - Google Patents

Abstract

The invention discloses a kind of best operating point control devices of undisturbed electrooptic modulator, are mainly used for the optics shift frequency based on electrooptic modulator, and the present invention includes laser, electrooptic modulator, photo-coupler, biasing control module.The wherein described biasing control module includes opto-electronic transforming signal amplification block, analog-to-digital conversion module, controller, direct current biasing output circuit, chaos signal generator, sinusoidal signal generator and signal mixed circuit；The invention also discloses a kind of implementation methods of the best operating point control device of undisturbed electrooptic modulator.The best operating point settled at one go control may be implemented in the present invention, improves best operating point playback speed so that the control efficiency higher of electrooptic modulator best operating point, the performance of system where further improving the electrooptic modulator.

Description

A kind of best operating point control device and method of undisturbed electrooptic modulator

Technical field

The present invention relates to optic communication optical sensing field, especially a kind of best effort of undisturbed electrooptic modulator Point control device and method.

Background technology

Electrooptic modulator is the device being modulated to optical signal using the electrooptic effect of certain crystal, logical in high-speed light The fields such as letter, Fibre Optical Sensor are widely used general.Electro-optical Modulation can be divided into longitudinal direction according to the difference of the direction of an electric field applied Electro-optical Modulation and lateral Electro-optical Modulation；According to the difference of modulation type, electric light phase-modulation and electro-optic intensity modulation can be divided into.Allusion quotation The electrooptic modulator output characteristic curve of type is shown in that schematic diagram 2, electrooptic modulator output characteristic curve are a cosine function shapes Curve.For electrooptic modulator, environment temperature, mechanical distortion, mechanical oscillation and the polarization state variation of input light can all draw Play the slow drift of electrooptic modulator operating point（Fig. 2 is shown in signal）, so as to cause the performance depreciation of electrooptic modulator, give electric light tune The application of device processed brings trouble.Therefore, electrooptic modulator operating point is carried out from motion tracking and control being very necessary.

In addition, when carrying out electrooptic modulator operating point from motion tracking and control, the biasing control of traditional electrooptic modulator Device processed is as shown in figure 3, working point control scheme is often used as feedback using the low-frequency excitation signal inputted at direct current biasing end Signal, this method often bring a large amount of noise into so that unnecessary noise occur in succeeding spectral processing.And it controls Mostly Step wise approximation best operating point when processed, therefore speed is slower, it is less efficient.In addition, traditional electrooptic modulator biasing control For device by the way of direct detection feedback light, detectivity is relatively low, needs larger feedback light that could support whole device Correct operation.

Invention content

A kind of undisturbed electric light tune is provided the technical problem to be solved by the present invention is to overcome the deficiencies in the prior art The best operating point control device and method of device processed, the present invention may be implemented the best operating point settled at one go control, improve Best operating point playback speed so that the control efficiency higher of electrooptic modulator best operating point further improves the electric light The performance of system where modulator.

The present invention uses following technical scheme to solve above-mentioned technical problem：

According to a kind of best operating point control device of undisturbed electrooptic modulator proposed by the present invention, including laser, One photo-coupler, electrooptic modulator, acousto-optic frequency shifters, the second photo-coupler, third photo-coupler, signal generator and biasing control Molding block, the biasing control module include photosignal conversion conditioning module, analog-to-digital conversion module, controller and direct current biasing Output circuit；Wherein,

Laser, for exporting continuous laser to the first photo-coupler；

First photo-coupler, for continuous laser to be divided into two-way：First via light inputs electrooptic modulator, the second road light input To acousto-optic frequency shifters；

Signal generator, for generating shift frequency sinusoidal signal and modulated signal, shift frequency sinusoidal signal is exported to acousto-optic frequency shifters, Modulated signal is exported to electrooptic modulator；

Electrooptic modulator, for according to the modulated signal received, first via light being modulated, the modulated first via is exported Light is to the second photo-coupler；

Acousto-optic frequency shifters, for according to the shift frequency sinusoidal signal received, the second road light to be carried out shift frequency, the second tunnel after shift frequency Light output is to third photo-coupler；

Second photo-coupler, for modulated first via light to be divided into two-way：The modulated light of the first via is used as detection light, the The modulated light in two tunnels is input to third photo-coupler；

Third photo-coupler, for the modulated light of the second road light and the second tunnel after shift frequency to be carried out beat frequency, the light after beat frequency Signal exports to photosignal and converts conditioning module；

Photosignal converts conditioning module, and filtering is amplified for converting optical signal into electric signal, and to electric signal, exports Electric signal after conditioning is to analog-to-digital conversion module；

Analog-to-digital conversion module, for the electric signal after conditioning to be converted into digital signal, the digital signal is defeated as feedback signal Go out to controller；

Controller is handled for the feedback signal to input, electrooptic modulator operating point drift situation is obtained, according to the drift Condition of shifting one's love controls direct current biasing output circuit；

Direct current biasing output circuit, for exporting DC offset voltage signal to the direct current biasing input port of electrooptic modulator, So that the operating point of electrooptic modulator is close to best operating point.

It is advanced optimized as a kind of best operating point control device of undisturbed electrooptic modulator of the present invention Scheme, best operating point are electrooptic modulator Electro-optical Modulation residing when Output optical power minimum under conditions of continuous light works Device output characteristic curve position.

It is advanced optimized as a kind of best operating point control device of undisturbed electrooptic modulator of the present invention Scheme, the first photo-coupler and third photo-coupler are 50:50 photo-couplers, the second photo-coupler are 90:10 photo-couplers.

The implementation method of best operating point control device based on a kind of above-mentioned undisturbed electrooptic modulator, controller Calculation process is directly carried out to the power value signal and phase signal of the feedback signal of input using best operating point control algolithm, Obtain electrooptic modulator operating point drift situation；A control is calculated according to the drift situation of present operating point in controller Voltage, the voltage control direct current biasing output circuit and export an electrooptic modulator drive signal so that electrooptic modulator works Point is returned directly to best operating point.

Realization electrooptic modulator bias point based on a kind of above-mentioned electrooptic modulator bias controller based on beat frequency Automatically the method locked, it is specific as follows：

A, the output characteristic curve of electrooptic modulator is acquired by feedback signal first, and by the phase of output characteristic curve Position is stored in power information in controller；

B, the drift bearing that the operating point of electrooptic modulator is differentiated using the principle of beat frequency, is obtained by luminous power direct detector The luminous power of feedback signal, and by the phase information of feedback signal and power information after analog-to-digital conversion module is handled, input Controller carries out calculation processing；

C, inside controller, by confirm feedback signal phase information it is positive and negative, and by its luminous power size and controller Electrooptic modulator output characteristic curve gathered in advance is compared；If DC offset voltage and electrooptic modulator waveguide lengths For same phase, then make the following judgment：

If the phase difference of feedback signal is 0, show that operating point at this time is best operating point；

If the phase difference of feedback signal is negative, show that best operating point drifts about to high voltage direction, at this time by feedback signal The output characteristic curve comparing calculation of luminous power size and electrooptic modulator goes out operating point offset, directly by electrooptic modulator The voltage of direct current biasing end input is exported again after subtracting the offset to the direct current biasing end of electrooptic modulator, to realization pair The control of electrooptic modulator best operating point；

If the phase difference of feedback signal is just, show that best operating point drifts about to low-voltage direction, at this time by luminous power size Go out operating point offset with the characteristic curve comparing calculation of electrooptic modulator output, directly by the direct current biasing end of electrooptic modulator Output is best to electrooptic modulator to realize to the direct current biasing end of electrooptic modulator after the voltage of input adds the offset The control of operating point.

The present invention has the following technical effects using above technical scheme is compared with the prior art：

（1）The present invention will not introduce disturbing signal in detecting light, reduce noise, be conducive to subsequent frequency spectrum processing.

（2）The best operating point settled at one go control may be implemented in the present invention, improves best operating point playback speed, makes The control efficiency higher for obtaining electrooptic modulator best operating point, the performance of system where further improving the electrooptic modulator.

（3）Heterodyne coherent detection high sensitivity, required feedback luminous power reduce, and then realize smaller Feedback of Power ratio Rate.

Description of the drawings

Fig. 1 is the system construction drawing of the present invention.

Fig. 2 is the electrooptic modulator bias voltage control schematic diagram based on photo-coupler in the prior art.

Fig. 3 is existing electrooptic modulator tune controling device structure diagram.

Specific implementation mode

Technical scheme of the present invention is described in further detail below in conjunction with the accompanying drawings：

Structure designed by the present invention utilizes acousto-optic frequency shifters（AFM）Optical signal after the shift frequency of output and electrooptic modulator （EOM）The optical signal for feedback of output carries out beat frequency, to realize the biasing control of EOM.

In order to facilitate calculating, it is assumed that the initial offset phase of the luminous power for feedback of EOM outputs is 0, then luminous power As follows：

In above formula, V is EOM external dc bias voltages；The half-wave voltage for representing EOM is initial offset phase.

The optical signal power for shift frequency of AFM outputs is as follows：

In above formulaFor the difference on the frequency that AFM is introduced, t is the time of the optical signal after the audio of AFM outputs,For AFM outputs The phase of optical signal after shift frequency.

The light signal fed back horse-power formula that final beat frequency obtains is as follows：

After it can see the feedback light in formula by opto-electronic conversion and low-pass filtering, if when obtained phase difference is negative, Then luminous power E is negative, at this timeThis means that best operating point drifts about to high voltage direction；If otherwise obtained phase difference For timing, then luminous power E is just, at this timeThis means that best operating point drifts about to low-voltage direction.In addition pass through again To EOM output detection of optical power and best operating point when EOM Output optical power comparison, and then can be obtained EOM work Point present position situation.

In order to realize the biasing settled at one go control, then in addition increase an acousto-optic frequency shifters in the present apparatus（Shift frequency is believed Number frequency is 40MHz）Circuit generates beat signal.The signal that the EOM signals exported are exported with AFM is carried out via photo-coupler The signal of beat frequency, output becomes voltage signal by photosignal conversion conditioning module.Inside controller, by confirming phase Information it is positive and negative, and luminous power size and controller electrooptic modulator output characteristic curve gathered in advance are compared, so After make the following judgment：If phase information is 0, show that operating point at this time is best operating point；If phase information is negative, Show that best operating point drifts about to low-voltage direction, at this time counts luminous power size and the comparison of electrooptic modulator output characteristic curve Point Drifting amount is calculated, directly exports direct current biasing plus the offset；If phase information is just, show best Operating point drifts about to high voltage direction, and luminous power size and electrooptic modulator output characteristic curve comparing calculation are gone out work at this time Point offset, directly subtracts the offset by direct current biasing and exports；To realize the control to EOM best operating points.

One outstanding electrooptic modulator working point control scheme, to make electrooptic modulator be operated in best operating point and Signal light needed for capable of exporting, and there is high efficiency, introducing noise is small, required feedback signal advantage small as possible.

The present invention is that an electrooptic modulator for continuous light modulation is biased voltage-controlled closed-loop control device. As shown in Figure 1, including mainly three big modules：Spectral module, power phases detecting module, electrooptic modulator bias control module.

Spectral module is mainly photo-coupler.

Electrooptic modulator biases control module：Photosignal converts conditioning module, analog-to-digital conversion mould Block, controller, direct current biasing output circuit.

The phase signal of light is mainly converted to electric signal by photosignal conversion conditioning module, includes photodetector And low-pass filter circuit.It needs exist for converting optical signals to electric signal, so the model of the photodetector used GD3560J, it is a kind of near infrared photodetector, and spectrum sensitive band is at 1550nm；When driving voltage 5V, which visits The dark current for surveying device is up to 1nA；Responsiveness 0.85A/W meets device requirement.Low-pass filter circuit to will export with The relevant electric signal of phase.Suitable low pass circuit is formed used here as capacitance resistance.

Analog-to-digital conversion module is exactly mainly that the analog voltage signal that opto-electronic transforming signal amplification block generates is converted to number Word signal.The MCP37D31-200 of A/D converter model Microchip companies used herein, it is that a have 16 The analog-digital converter of precision highest 200MHz sample rates, can meet 40MHz frequency-shift signalings of the present invention and extinction ratio about completely There is the requirement of 30dB.

Controller herein is the non-volatile unlimited configuration programmable logical device of Lattice companies The LCMXO1200 of MachXOPLD series.The programmable logic device provides in-line memory, facilitates the buffering of data；Together When it also have built-in PLL and oscillator, the Clock management that can be integrated.The controller receives the number that A/D is generated Word signal carries out calculation process to this digital quantity, the current working condition of electrooptic modulator is obtained, according to this of electrooptic modulator A working condition adjusts the output of output driving circuit.

Direct current biasing output circuit includes D/A converters and amplifier.The precision of digital-to-analogue conversion determines last electric light The degree of closeness of the operating point and electrooptic modulator best operating point of the locking of modulator bias voltage control system, so D/A turns The precision of parallel operation can obtain greatly a bit, and digital analog converter used herein is the DAC8552 of TI companies, it is 16 precision The D/A converters of voltage output type.Amplifier is mainly the load driving capability and Electro-optical Modulation for increasing output driving circuit The range of device direct current biasing end input voltage, is larger than a half-wave voltage.Due to D/A output voltages to be matched, here Amplifier position AD8000 has the characteristics that track to track exports high supply voltage, and bandwidth reaches 1.58GHz.

It is as follows in conjunction with device parameters：

Step 1: passing through 50:The light letter that the optical signal and electrooptic modulator that 50 photo-couplers generate acousto-optic frequency shifters generate Number carry out beat frequency.

Step 2: optical signal enters phase detection module, electric signal is converted to by photodetector GD3560J first, And pass through low-pass filter circuit, an electric signal that can reflect luminous power size and phase directional is obtained, and enter electric light Modulator biases control module.

Step 4: after electric signal enters electrooptic modulator biasing control module, it first will by analog-digital converter MCP3428 Phase signal and strength signal are improved and are converted into digital signal, and digital signal is as feedback signal via controller LCMXO1200 calculation process obtains electrooptic modulator operating point drift situation；According to the drift situation of present operating point, controller A control voltage is calculated in LCMXO1200, which becomes analog signal by a digital analog converter DAC8552, and It is improved via amplifier AD8000, one appropriate direct-current control voltage of final output.

The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that The specific implementation of the present invention is confined to these explanations.For those of ordinary skill in the art to which the present invention belongs, exist Under the premise of not departing from present inventive concept, several simple deductions or replacement can also be made, all shall be regarded as belonging to the present invention's Protection domain.

Claims (5)

1. a kind of best operating point control device of undisturbed electrooptic modulator, which is characterized in that including laser, the first light Coupler, electrooptic modulator, acousto-optic frequency shifters, the second photo-coupler, third photo-coupler, signal generator and biasing control mould Block, the biasing control module include photosignal conversion conditioning module, analog-to-digital conversion module, controller and direct current biasing output Circuit；Wherein,

Laser, for exporting continuous laser to the first photo-coupler；

First photo-coupler, for continuous laser to be divided into two-way：First via light inputs electrooptic modulator, the second road light input To acousto-optic frequency shifters；

Signal generator, for generating shift frequency sinusoidal signal and modulated signal, shift frequency sinusoidal signal is exported to acousto-optic frequency shifters, Modulated signal is exported to electrooptic modulator；

Electrooptic modulator, for according to the modulated signal received, first via light being modulated, the modulated first via is exported Light is to the second photo-coupler；

Acousto-optic frequency shifters, for according to the shift frequency sinusoidal signal received, the second road light to be carried out shift frequency, the second tunnel after shift frequency Light output is to third photo-coupler；

Second photo-coupler, for modulated first via light to be divided into two-way：The modulated light of the first via is used as detection light, the The modulated light in two tunnels is input to third photo-coupler；

Third photo-coupler, for the modulated light of the second road light and the second tunnel after shift frequency to be carried out beat frequency, the light after beat frequency Signal exports to photosignal and converts conditioning module；

Photosignal converts conditioning module, and filtering is amplified for converting optical signal into electric signal, and to electric signal, exports Electric signal after conditioning is to analog-to-digital conversion module；

Analog-to-digital conversion module, for the electric signal after conditioning to be converted into digital signal, the digital signal is defeated as feedback signal Go out to controller；

Controller is handled for the feedback signal to input, electrooptic modulator operating point drift situation is obtained, according to the drift Condition of shifting one's love controls direct current biasing output circuit；

Direct current biasing output circuit, for exporting DC offset voltage signal to the direct current biasing input port of electrooptic modulator, So that the operating point of electrooptic modulator is close to best operating point.

2. a kind of best operating point control device of undisturbed electrooptic modulator according to claim 1, feature exist In best operating point is electrooptic modulator electrooptic modulator residing when Output optical power minimum under conditions of continuous light works Output characteristic curve position.

3. a kind of best operating point control device of undisturbed electrooptic modulator according to claim 1, feature exist In the first photo-coupler and third photo-coupler are 50:50 photo-couplers, the second photo-coupler are 90:10 photo-couplers.

4. the best operating point control device based on a kind of undisturbed electrooptic modulator described in any one of claim 1-3 Implementation method, which is characterized in that controller believes the performance number of the feedback signal of input using best operating point control algolithm Number and phase signal directly carry out calculation process, obtain electrooptic modulator operating point drift situation；Controller is according to work at present The drift situation of point, is calculated a control voltage, which controls direct current biasing output circuit and export an Electro-optical Modulation Device drive signal so that electrooptic modulator operating point is returned directly to best operating point.

5. the realization based on a kind of electrooptic modulator bias controller based on beat frequency described in any one of claim 1-3 The method that electrooptic modulator bias point locks automatically, which is characterized in that specific as follows：

A, the output characteristic curve of electrooptic modulator is acquired by feedback signal first, and by the phase of output characteristic curve Position is stored in power information in controller；

B, the drift bearing that the operating point of electrooptic modulator is differentiated using the principle of beat frequency, is obtained by luminous power direct detector The luminous power of feedback signal, and by the phase information of feedback signal and power information after analog-to-digital conversion module is handled, input Controller carries out calculation processing；

C, inside controller, by confirm feedback signal phase information it is positive and negative, and by its luminous power size and controller Electrooptic modulator output characteristic curve gathered in advance is compared；If DC offset voltage and electrooptic modulator waveguide lengths For same phase, then make the following judgment：

If the phase difference of feedback signal is 0, show that operating point at this time is best operating point；

If the phase difference of feedback signal is negative, show that best operating point drifts about to high voltage direction, at this time by feedback signal The output characteristic curve comparing calculation of luminous power size and electrooptic modulator goes out operating point offset, directly by electrooptic modulator The voltage of direct current biasing end input is exported again after subtracting the offset to the direct current biasing end of electrooptic modulator, to realization pair The control of electrooptic modulator best operating point；

If the phase difference of feedback signal is just, show that best operating point drifts about to low-voltage direction, at this time by luminous power size Go out operating point offset with the characteristic curve comparing calculation of electrooptic modulator output, directly by the direct current biasing end of electrooptic modulator Output is best to electrooptic modulator to realize to the direct current biasing end of electrooptic modulator after the voltage of input adds the offset The control of operating point.