CN201043984Y - Optoelectronic heterodyne detection circuit - Google Patents

Abstract

A photoelectric heterodyne detection circuit used for realizing underwater acousto-optic communication comprises a first photoelectric detector, a second photoelectric detector, a first high pass filter, a second high pass filter, a local oscillator, a first frequency mixer, a second frequency mixer, a third frequency mixer, a fourth frequency mixer, a 90 degree phase switcher, a first low pass filter, a second low pass filter, a third low pass filter, a fourth low pass filter, a data acquisition board, and an oscillograph, forming a signal processing circuit and a reference processing circuit. This utility model has the advantages of frequency shift direction discriminating, continuous measurement, simple structure, small volume, easy operation and low production cost.

Description

Photoelectric heterodyne detection circuit

Technical field

The utility model relates to photosignal, particularly a kind of photoelectric heterodyne detection circuit that is used for carrying out acoustooptic communication with submarine target, and it is a kind of circuit that only adopts electronics device to realize the photoelectricity heterodyne detection.

Background technology

Along with the develop rapidly of laser-Doppler vibration measuring technology, it has had usual method be beyond one's reach precision and sensitivity, and can measure the movement velocity and the subtle change thereof of various weak vibration targets at a distance, non-contactly.Characteristics such as the precision height of laser-Doppler vibration measuring technology, antijamming capability are strong, good confidentiality make it be applied in during submarine target is communicated by letter again, are the strong technological means of obtaining submarine target information.

The long-run development of laser technology itself is not only depended in the development of laser-Doppler vibration measuring technology, also depends on the generation of various new methods and the fast development of device simultaneously.Accurate, the stable and simple coherence detection of Doppler frequency plays crucial effects to realizing efficient communication.Simultaneously, the various accurate measurements of doing the simple harmonic oscillation target also are that the method by the Doppler frequency Coherent Detection realizes, and then reappear original vibration frequency.

The relevant principle of work that tests the speed of Doppler is that system sends coherent laser beam and shines the testee surface, and surface vibration causes arriving the flashlight generation Doppler shift of body surface.Method by Coherent Detection can be measured Doppler shift, thereby obtains object vibration speed, can be divided into homodyne detection on the mode and heterodyne detects two kinds:

Heterodyne is f with frequency in detecting _SLaser Doppler signal be f+f with frequency after acoustooptic modulation (being designated hereinafter simply as AOM) _ALocal oscillator laser carry out mixing, detector output difference frequency is Δ f _D=f+f _A-f _S, eliminate dc shift by high-pass filtering again, obtain Doppler shift behind the frequency discrimination.

It is to utilize ZAP to convert reference light to frequency modulation or phase-modulated signal is measured that heterodyne detects, improved the signal to noise ratio (S/N ratio) of photosignal, it is strong to have an antijamming capability, the measuring speed height, be easy to realize characteristics such as high measurement resolving power, thereby the mode that in precision measurement, adopts heterodyne to detect.In addition, in laser doppler measurement technique, also need the discriminating of consideration speed or speed component direction, the general method that two-phase detection method, high frequency phase modulation (PM) method and frequency displacement are arranged, wherein presetting frequency deviation is technology the most commonly used during direction is differentiated.

Fig. 1 is a measurement mechanism [referring to technology 1 " LASER DOPPLER VIBROMETER " holt Zhuo formerly, measure the 2nd phase, 1992 abroad] of realizing Doppler's vibration measuring with optical means.Beam splitter 1 is told a branch of light and is incided and become the reference light of output frequency deviation for-80MHz after being gone up by the AOM10 that acousto-optic modulator 5 drove that is independent of system, shine on the avalanche photodide 7 (Avalanche Photo Diode is designated hereinafter simply as APD) by another beam splitter 8 again and carry out the optics adjustment.Another Shu Guangyong catoptron 2 that beam splitter 1 is told and catoptron 6 are adjusted optical axis, behind beam splitter 3, shine on the measured object again by lens 4 convergences, the Doppler shift flashlight of reflected back is interfered on APD7 with reference light by beam splitter 3, catoptron 9 and beam splitter 8 again, thereby produces beat frequency.The beat frequency light that produces after the APD7 opto-electronic conversion again through speed demodulation, frequency discrimination and then detect corresponding vibration velocity signal.When the catoptron in this measurement mechanism or other devices move to the border condition that they may reach, frequency displacement can not unlimited keeping, the light beam short time is lost or phase place is more prominent thereby can produce, simultaneously as seen from Figure 1: this device has used APD, a plurality of beam splitter and other optical components to realize the frequency displacement phase demodulation, has increased the adjusting difficulty and the system bulk of light path.And be-80MHz because the AOM of this measurement mechanism presets frequency displacement, the data processing of back has been increased difficulty.Thereby existing heterodyne detection device complicated operation not only, and cost is very high.Simultaneously, the AOM driver is again independently parts, has increased the volume of system undoubtedly.

Summary of the invention

The purpose of this utility model is exactly the deficiency that will remedy above-mentioned existing heterodyne detection device, provide a kind of being used for to carry out the acoustooptic communication photoelectric heterodyne detection circuit with submarine target, this circuit should have the discriminating of frequency displacement direction, continuous coverage, simple in structure, volume is little, easy and simple to handle and advantage that cost is low.

Technical solution of the present utility model is as follows:

A kind of photoelectric heterodyne detection circuit that is used for carrying out acoustooptic communication with submarine target, be characterised in that its formation comprises first photodetector, second photodetector, first Hi-pass filter, second Hi-pass filter, local oscillator, first frequency mixer, second frequency mixer, three-mixer, the 4th frequency mixer, 90 ° of phase shifters, first low-pass filter, second low-pass filter, the 3rd low-pass filter, the 4th low-pass filter, data collecting card, oscillograph, constitute signal processing circuit and reference process circuit, its position relation is:

In the described signal processing circuit, first photodetector receives by the Doppler shift scattered light signal behind the water surface oscillating action, the electric signal of its output is divided into two-way after first high pass filter filters: the one tunnel with the local oscillator output signal simultaneously in the first frequency mixer mixing, through the first low-pass filter filtering, obtain first via signal again; The second frequency mixer mixing is passed through with the local oscillator output signal through 90 ° of phase shifter phase shifts in another road, obtains the second road signal through the second low-pass filter filtering again, and the described first via signal and the second road signal are imported on the described data collecting card;

In the described reference process circuit, second photodetector receives with first photodetector and receives identical Doppler shift scattered light signal, the electric signal of its output is divided into two-way after second high pass filter filters: the one tunnel with the local oscillator output signal simultaneously in the three-mixer mixing, through the 3rd low-pass filter filtering, obtain the Third Road signal again; The 4th frequency mixer mixing is passed through with the local oscillator output signal through 90 ° of phase shifter phase shifts in another road, obtains the four road signal through the 4th low-pass filter filtering again, and described Third Road signal and the four road signal are imported described oscillograph;

The output that obtains behind the low-pass filter of crystal oscillator output signal in local oscillator in the described local oscillator is as the drive signal of acousto-optic modulator.

Described first photodetector has identical structure and performance with second photodetector, is PIN photodiode.

Described local oscillator is made up of the bandpass filter that crystal oscillator and the band connection frequency of 55MHz is 55MHz.

Described 90 ° of phase shifters are made of integrated operational amplifier chip and concentric cable.

Because the handled signal center frequency of this circuit arrangement is 55MHz, promptly the signal period is 18.1ns, belongs to the high-frequency circuit category, will produce the distortion with signal self of crosstalking between signal like this in this circuit design and debug process.Simultaneously, the local oscillator in this circuit arrangement and 90 ° of phase shifts are because the restriction of the component parameter that uses can make circuit arrangement self that there is certain effect in pending signal.Therefore, in order to observe error that above several respects bring and signal to be revised, symmetric position place at circuit uses the components and parts identical with the signal Processing road to constitute the reference process circuit according to the components and parts position relation identical with the signal Processing road, to handling of receiving by second photodetector, the output signal that obtains is input to oscillograph carries out real-time comparative observation with the identical Doppler shift scattered light of first photodetector.Simultaneously, with the output signal that obtains behind the low-pass filter of crystal oscillator output signal in local oscillator in the local oscillator drive source as AOM.

The external power supply of described circuit is ± 15V that all the other voltages are obtained by the internal circuit variation.

The utility model photoelectric heterodyne detection circuit, promptly the heterodyne circuit that carries out acoustooptic communication with submarine target carries out the principle of work that the frequency displacement direction differentiates and is described as follows:

The electric field that the Doppler shift light beam produces on photodetector is E _OCos[2 π (the v+ Δ v)+φ], the electric field of reference beam in passage 1 is E _RCos (2 π vt), the electric field in passage 2 is E _RSin (2 π vt).

Detector current in passage 1 is:

${\mathrm{<figure-callout\; id="1"\; label="i"\; filenames="Y20072006869100091.png"\; state="\{\{state\}\}">i</figure-callout>}}_1=B_1[\frac{1}{2}{E}_R^2+\frac{1}{2}{E}_o^2{+E}_o{E}_R\cos (2\mathrm{\&pi;\&Delta;vt}+\mathrm{\&phi;})]$

Electric current in the passage 2 is:

$i_2=B_2[\frac{1}{2}{E}_R^2+\frac{1}{2}{E}_o^2-E_o{E}_R\sin (2\mathrm{\&pi;\&Delta;vt}+\mathrm{\&phi;})]$

B in the formula ₁And B ₂Be the detector sensitivity constant.

Therefore, the variation of detector current is led over passage 1 with 90 ° in the passage 2.If Doppler shift is changed to-Δ v by+Δ v, then the AC compounent of detector current becomes respectively-E in passage 1 and the passage 2 _oE _RCos (2 π Δ vt-φ) and+E _oE _RCos (2 π Δ vt-φ).At this moment, passage 1 is just led over passage 2.This system can be worked, importantly make each passage receive similar diffusing coloured light sampling accurately, they and reference light mixing have constant phase differential.The way that generally realizes this requirement is that two passages use common light path, realizes difference by polaroid and prism.

It is that the method for concentric cable by electronics of 1 operational amplifier and certain-length realizes 90 ° of phase shifts that the utility model circuit is chosen gain, signal is that the transmission delay on the coaxial wire of 50 Ω is 5ns/m in characteristic impedance, calculate corresponding to time delay of 90 ° of phase shifts according to the transmission signals cycle thus, thereby reach difference effect of equal value, promptly in passage 1 and the passage 2 AC compounent of detector current respectively by+E _oE _RCos (2 π Δ vt+ φ)] and-E _oE _RSin (2 π Δ vt+ φ)] become-E _oE _RCos (2 π Δ vt-φ) and+E _oE _RCos (2 π Δ vt-φ).So both can carry out second removal, can conveniently regulate realize 90 ° of phase shifts, i.e. difference of equal value again noise.

In the design process of the utility model circuit, design by local oscillator, its electric signal with gained after the photodetector conversion carries out mixing, low-pass filtering reduces the intractability to output data greatly thereby make, and bandwidth is controlled in the 3MHz scope.At circuit relevant position design and installation reference process circuit, can monitor in real time owing to the reason of circuit self is given the output deviation that the result causes in local oscillator part and 90 ° of phase shifter section.

Technique effect of the present utility model is as follows:

1, the utility model is 1 the operational amplifier and the coaxial wire of certain-length by adopting gain, is easy to realize the generation of difference.Owing to adopt electronics device to replace polarizing method to realize difference, can avoid the adjusting of light path, have debugging convenience, stable performance, advantage that cost is low.

2, local oscillator and low-pass filtering reduce the output signal bandwidth, and bandwidth is in the 3MHz, has reduced the requirement of back data collecting card sample frequency and the difficulty of data processing.

3, the AOM driving is integrated on the circuit board with heterodyne detection circuit, plank is of a size of 80 * 84mm ²Thereby, reduced system bulk, reduced system cost.

Description of drawings

Fig. 1 is the existing measurement mechanism structural representation of realizing Doppler's vibration measuring with optical means

Fig. 2 is the structural representation of the utility model photoelectric heterodyne detection circuit embodiment

Among the figure: 23-local oscillator, 25-90 ° of phase shifter.

I is the signal Processing road, comprising: 211-first photodetector, 221-first Hi-pass filter, 241-first frequency mixer, 242-second frequency mixer, 261-first low-pass filter, 262-second low-pass filter.

II is that reference signal is handled the road, comprising: 212-second photodetector, 222-second Hi-pass filter, 243-three-mixer, 244-the 4th frequency mixer, 263-the 3rd low-pass filter, 264-the 4th low-pass filter.The 27-data collecting card, the 28-oscillograph.

Embodiment

The utility model is described in further detail below in conjunction with drawings and Examples.But should not limit protection domain of the present utility model with this.

See also Fig. 2 earlier, Fig. 2 is the structural representation of the utility model photoelectric heterodyne detection circuit embodiment.As seen from the figure, the utility model photoelectric heterodyne detection circuit, constitute and comprise first photodetector 211, second photodetector 212, first Hi-pass filter 221, second Hi-pass filter 222, local oscillator 23, first frequency mixer 241, second frequency mixer 242, three-mixer 243, the 4th frequency mixer 244,90 ° of phase shifters 25, first low-pass filter 261, second low-pass filter 262, the 3rd low-pass filter 263, the 4th low-pass filter 264, data collecting card 27, oscillograph 28, constitute signal processing circuit I and reference process circuit I I, its position relation is:

Described flashlight treatment circuit I, first photodetector 211 receives by the Doppler shift scattered light signal behind the water surface oscillating action, the electric signal of its output is divided into two-way after 221 filtering of first Hi-pass filter: the one tunnel with local oscillator 23 output signals simultaneously in 241 mixing of first frequency mixer, through 261 filtering of first low-pass filter, obtain first via signal again; 242 mixing of second frequency mixer are passed through with local oscillator 23 output signals through 90 ° of phase shifter 25 phase shifts in another road, obtain the second road signal through 262 filtering of second low-pass filter again, the described first via signal and the second road signal are imported on the described data collecting card 27;

Described reference process circuit I I, second photodetector 212 receives with first photodetector 211 and receives identical Doppler shift scattered light signal, the electric signal of its output is divided into two-way after 222 filtering of second Hi-pass filter: the one tunnel with local oscillator 23 output signals simultaneously in three-mixer 243 mixing, through 263 filtering of the 3rd low-pass filter, obtain the Third Road signal again; 244 mixing of the 4th frequency mixer are passed through with local oscillator 23 output signals through 90 ° of phase shifter 25 phase shifts in another road, obtain the four road signal through 264 filtering of the 4th low-pass filter again, described Third Road signal and the four road signal are imported described oscillograph 28;

The output that obtains behind the low-pass filter of crystal oscillator output signal in local oscillator in the described local oscillator (23) is as the drive signal of acousto-optic modulator.

Described first photodetector 211 has identical structure and performance with second photodetector 212, is PIN photodiode.

Described local oscillator 23 is made up of the bandpass filter that crystal oscillator and the band connection frequency of 55MHz is 55MHz.

Described 90 ° of phase shifters 25 are made of integrated operational amplifier chip and concentric cable.

Because the handled signal of this circuit arrangement belongs to the high-frequency circuit category, can in this circuit design and debug process, produce crosstalking and the distortion of signal self between signal.Simultaneously, the local oscillator 23 in this circuit arrangement and 90 ° of phase shifts 25 are because the restriction of the component parameter that uses also can make circuit arrangement self that there is certain effect in pending signal.Therefore, in order to observe error that above several respects bring and signal to be revised, symmetric position place at the utility model circuit uses and signal Processing road on all four components and parts formation processing reference arm according to the position relation identical with the signal Processing road, second photodetector 212 receives identical Doppler shift scattered light signal with first photodetector 211, and the output signal that obtains after treatment is input to oscillograph 28 and carries out real-time comparative observation.

Described photodetector is a PIN photodiode, and described PIN photodiode is the InGaAs G9806 series with preposition enlarging function.Simultaneously, placing the one-level cutoff frequency after PIN photodiode is that the Hi-pass filter of 55MHz is to eliminate The noise.

Described local oscillator 23 is made up of the bandpass filter that crystal oscillator and the band connection frequency of 55MHz is 55MHz, described crystal oscillator is the KDS-6D model, described bandpass filter is combined by ground bandpass filter and Hi-pass filter, and the definite of its cutoff frequency obtained by following formula:

$f_c=\frac{1}{2\mathrm{\&pi;RC}},R=300\mathrm{\&Omega;},C=9.7\mathrm{pf}.$

Described 90 ° of phase shifts are made of the concentric cable of integrated operational amplifier chip AD811 and certain-length, and according to the actual conditions of circuit design, the concentric cable line length is chosen as 76cm.

Described signal center frequency is 55MHz.

The external power supply of described circuit is ± 15V, and all the other voltages are changed by internal circuit and obtain, circuit is inner need uses+3.3V ,+5V, employing MC7805 and LM317 obtain required voltage.

Described AOM drives and is made up of crystal oscillator and one-level low-pass filter, drives requirement according to AOM, and obtaining frequency by low-pass filter filtering is that 55MHz, voltage are the sinusoidal signal driving AOM of 4.8V.

The centre frequency of considering the processing of circuit signal is 55MHz, belongs to the high-frequency circuit scope of design.Therefore, the making situation of its printed circuit board (PCB) is directly determining the degree of functioning of circuit output signal.Feedback resistance and the wire length between gain resistor of operational amplifier AD811 must be crosstalked with minimizing less than 6.35mm when drawing the printed circuit board (PCB) of system circuit, and the line line length is taken as 2.286mm in this circuit design.Distance between each components and parts is the shortest as far as possible, simultaneously, and in order to reduce the area that electromagnetic radiation also will reduce printed circuit board (PCB) self.

The utility model adopts the electronics components and parts to realize photoelectric heterodyne detection circuit discriminating Doppler frequency, thereby Eliminated and traditional realized that by optical element Doppler's frequency discrimination is high and the later data intractability is big to the light path alignment requirements Impact, realized again simultaneously the function that deviation that the Simultaneous Monitoring circuit causes self and AOM drive, make knot The simple easy operating of structure, and owing to adopt electronics method not need repeatedly to calibrate directly to have realized 90 ° of difference Requirement, debugging that can a completion system, so the utility model device has simple in structure being easy to and regulates, becomes The advantage that this is low, volume is little.

Claims (4)

1. photoelectric heterodyne detection circuit that is used for carrying out acoustooptic communication with submarine target, be characterised in that its formation comprises first photodetector (211), second photodetector (212), first Hi-pass filter (221), second Hi-pass filter (222), local oscillator (23), first frequency mixer (241), second frequency mixer (242), three-mixer (243), the 4th frequency mixer (244), 90 ° of phase shifters (25), first low-pass filter (261), second low-pass filter (262), the 3rd low-pass filter (263), the 4th low-pass filter (264), data collecting card (27), oscillograph (28), constitute signal processing circuit (I) and reference process circuit (II), its position relation is:

Described signal processing circuit (I), first photodetector (211) receives by the Doppler shift scattered light signal behind the water surface oscillating action, the electric signal of its output is divided into two-way after first Hi-pass filter (221) filtering: the one tunnel with local oscillator (23) output signal simultaneously in first frequency mixer (241) mixing, through first low-pass filter (261) filtering, obtain first via signal again; Second frequency mixer (242) mixing is passed through with local oscillator (23) output signal through 90 ° of phase shifters (25) phase shift in another road, obtain the second road signal through second low-pass filter (262) filtering again, the described first via signal and the second road signal are imported on the described data collecting card (27);

Described reference process circuit (II), second photodetector (212) receives with first photodetector (211) and receives identical Doppler shift scattered light signal, the electric signal of its output is divided into two-way after second Hi-pass filter (222) filtering: the one tunnel with local oscillator (23) output signal simultaneously in three-mixer (243) mixing, through the 3rd low-pass filter (263) filtering, obtain the Third Road signal again; The 4th frequency mixer (244) mixing is passed through with local oscillator (23) output signal through 90 ° of phase shifters (25) phase shift in another road, obtain the four road signal through the 4th low-pass filter (264) filtering again, described Third Road signal and the four road signal are imported described oscillograph (28);

The output that obtains behind the low-pass filter of crystal oscillator output signal in local oscillator in the described local oscillator (23) is as the drive signal of acousto-optic modulator.

2. photoelectricity heterodyne circuit according to claim 1 is characterized in that described first photodetector (211) has identical structure and performance with second photodetector (212), is PIN photodiode.

3. photoelectricity heterodyne circuit according to claim 1 is characterized in that described local oscillator (23) is made up of the bandpass filter that crystal oscillator and the band connection frequency of 55MHz is 55MHz.

4. photoelectricity heterodyne circuit according to claim 1 is characterized in that described 90 ° of phase shifters (25) are made of integrated operational amplifier chip and concentric cable.

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