CN208849771U - A kind of long distance laser communication device - Google Patents
A kind of long distance laser communication device Download PDFInfo
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- CN208849771U CN208849771U CN201821835345.9U CN201821835345U CN208849771U CN 208849771 U CN208849771 U CN 208849771U CN 201821835345 U CN201821835345 U CN 201821835345U CN 208849771 U CN208849771 U CN 208849771U
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Abstract
The utility model discloses a kind of long distance laser communication devices, including laser transceiver, laser emitter, light sensor arrays, power supply, data line, master controller, behavior controller and high frequency and power controller, the left and right sidewall of laser transceiver is respectively arranged with laser emitter and light sensor arrays, angle-controlled motor is provided on the left of light sensor arrays, the bottom right of laser transceiver is provided with gear control motor, inner cavity is provided with light modulation lens on the right side of laser transceiver, automatic tracing orientation system is provided at the top of focusing mirror, the utility model proposes a completely new transceivers based on optic communication, optic communication speed can be made to greatly improve, based entirely on existing optical communication technique, without using expensive optical modem, device structure is simple, it is apparent to the resolution of signal, It is cheap, it is only necessary to which that higher speed can be realized on existing communication products by replacing emitting and receiving equipment.
Description
Technical field
The utility model relates to field of communication technology, in particular to a kind of long distance laser communication device.
Background technique
Laser communication is a kind of using optical signal as the wireless communication technique of transmission information carrier, and light data transmission is based on
Carrier format is transmitted.Compare frequency range 4.2*10^14 to the 7.8*10^14HZ, the frequency 10^ of radio of visible light
Gap of the order of magnitude difference of 9HZ in actual data transfer application is but not much.This is because thinking in existing technology
It is not much different under road for the propulsion progress of the modulation of light carrier and radio modulation technique, and faster due to the frequency of light,
Requirement to technology is higher.Therefore in laser far-distance field of data transmission, again without great development prospect.Especially too
It today that empty technology continues to develop, since the high definition continuous video data of tens G per second cracking cannot be transferred to ground, and makes
Still image can only be analyzed at ground staff, seriously affect progress and the direction of scientific research in this way.
And since the light data transmission based on the prior art is because of the interference of substance in atmosphere, although in the lab
The data transmission bauds of remote super radio can be obtained, but the requirement to atmosphere is higher, therefore the Gbps in practical application
Transmission speed it is still very slow relative to Tbps and Pbps.The most important is that it involves great expense, precise structure, especially light
Carrier modem, even more only fewer companies and R&D institution can be manufactured, this is unfavorable to space technology progress
, Chinese invention patent publication number CN201510958059.6 disclose a kind of high system Transmission system of electromagnetic wave simulation number and
Its transmission method, the patent is during electromagnetic transmission with signal interference is small, low energy consumption, volume of transmitted data is big, safety
Strong advantage, due to light wave and a kind of electromagnetic wave, the technical thought of patent of invention can be applied completely to be passed in light data
On defeated, but none light data transmission utility model patent and product are based on this patent and invent currently on the market, for this purpose,
We are based on a kind of high system transmission of electromagnetic wave simulation number disclosed in Chinese invention patent publication number CN201510958059.6
System and its transmission method propose a kind of long distance laser communication device.
Utility model content
The utility model provides a kind of long distance laser communication device, devise one it is completely new based on optic communication
Transceiver can make optic communication speed greatly improve, based entirely on existing optical communication technique, without using expensive light tune
Modulator-demodulator, device structure is simple, apparent to the resolution of signal, cheap, it is only necessary to which replacing emitting and receiving equipment can
To realize higher speed on existing communication products.
To achieve the above object, the technical solution that the utility model is taken are as follows:
A kind of long distance laser communication device, including laser transceiver, sensor conductor, adjusting lens outer container, power supply, electricity
Source line, data line, master controller, behavior controller and high frequency and power controller are provided on the left of the laser transceiver
The inner cavity right side of laser emitter, the laser transceiver is provided with light sensor arrays, the light sensor arrays
Left side is provided with angle-controlled motor, and the outer right wall of the laser transceiver, which is socketed with, adjusts lens outer container, described to adjust thoroughly
The intracavity bottom of mirror outer container is provided with gear control motor, and the inner cavity for adjusting lens outer container is provided with helical gear, and tooth
The power output end of wheel control motor is provided with the transmission gear matched with helical gear, sets between helical gear described in two groups
Light modulation lens are equipped with, light modulation lens gear is provided at the top and bottom of the light modulation lens, lens tooth is dimmed described in two groups
Wheel is socketed with light modulation lens fixed link, and the outer circumferential walls of the laser transceiver are provided with triangular support bracket, the triangle branch
Support is connected with focusing mirror far from one end of laser transceiver, and focusing mirror is close to light modulation lens, described to focus instead
It penetrates mirror and one end top of triangular support bracket is provided with automatic tracing orientation system;
The laser emitter includes eight groups of data exciters and one group of positioning, interference compensation laser, and is positioned, interference
The top, lower section, left and right side for compensating laser are placed with two groups of data along positioning, interference compensation laser axis direction
Exciter, the central point of the central point line of data exciter described in four groups of upper and lower and data exciter described in four groups of left and right sides
Line is mutually perpendicular to;
The light sensor arrays include inner sensor array, outer sensor array and polariscope, the inner sensor
Array outer wall is socketed with outer sensor array, and the inner sensor array is provided with polariscope close to light modulation lens side;
The high frequency and power controller include HF switch and power amplification circuit, and the master controller passes through data line
It is electrically connected with HF switch, the behavior controller is electrically connected by data line and power amplification circuit, and the power is put
Big circuit is electrically connected by power supply line and data exciter and power supply;
The master controller includes binary data converting unit, data storage cell, receives optical data storage unit, light
Information receives converting unit, sends optical data storage unit, system data store, transmitting laser power stability control list
Member, data input and output, optical parameter input and output control unit and module data regulate and control unit, the power supply by power supply line with
Binary data converting unit, data storage cell receive optical data storage unit, optical information reception converting unit, send light
Data storage cell, system data store, transmitting laser power stability control unit, data input and output, optical parameter are defeated
Enter output control unit and module data regulation unit electric wire connect, the module data regulation unit pass through data line and two into
Date Conversion Unit processed, data storage cell, receive optical data storage unit, send optical data storage unit, system data is deposited
Storage unit, transmitting laser power stability control unit, data input and output and optical parameter input and output control unit are electrically connected,
The binary data converting unit is electrically connected by data line and data input and output, the reception optical data storage unit
Converting unit is received by data line and optical information to be electrically connected, the optical information receive converting unit by sensor conductor with
Inner sensor array is electrically connected, and the transmission optical data storage unit is electrically connected by data line with high frequency and power controller
It connects, the transmitting laser power stability control unit is electrically connected by data line and power amplification circuit, and the optical parameter is defeated
Enter output control unit to be electrically connected by data line and behavior controller;
The behavior controller includes light sensor arrays angle and lens adjustment automatic control unit, photosensitive sensor
It signal conversion unit, incident light source parameter calculation unit, laser power control unit, the input and output of optical information parameter and chases after automatically
Track orientation system parameter compensates control parameter output, and the power supply passes through power supply line and light sensor arrays angle and lens tune
Whole automatic control unit, photosensitive sensor signal conversion unit, incident light source parameter calculation unit, laser power control unit,
The input and output of optical information parameter are connected with automatic tracing orientation system parameter compensation control parameter output electric property, the angle control
Motor and gear control motor pass through power supply line and light sensor arrays angle and lens adjustment automatic control unit is electrical
Connection, the automatic tracing orientation system compensate control parameter output electric property by data line and automatic tracing orientation system parameter
Connection, the outer sensor array are electrically connected by sensor conductor and photosensitive sensor signal conversion unit, the incidence
Light source parameters computing unit adjusts automatic control unit, light sensor by data line and light sensor arrays angle and lens
Device signal conversion unit, laser power control unit, the input and output of optical information parameter and the compensation of automatic tracing orientation system parameter
The connection of control parameter output electric property, the laser power control unit by data line and photosensitive sensor signal conversion unit and
High frequency and power controller are electrically connected, and the optical information parameter input and output are electrically connected by data line and master controller.
Preferably, the inner sensor array is identical with the center location of outer sensor array, and on outer sensor array
It is provided with the photosensitive sensor response range section of lens adjust automatically annular in shape, for controlling the photosensitive sensor of lens
Array position responds section, when focal beam spot is not in this section, so that it may and it can cross position and calculate, to obtain parameter, from
And it is far and near to control lens adjustment.
Preferably, the light modulation lens inject light far from the side of light sensor arrays, by dimming lens on light
Line is focused, collecting signal.
Preferably, the laser polarization angle of the laser emitter is 0-90 °.
Preferably, the power amplification circuit includes diode, triode and capacitor, and the power supply passes through power supply line successively
It is electrically connected diode, capacitor and triode, the behavior controller passes through data line electrical connection triode, amplifying circuit
One kind, for improving output power.
Preferably, the polariscope is fixedly connected with inner sensor array, is close between inner sensor array and polariscope
Secure fit, in rotation, inner sensor array rotates simultaneously with polariscope, relative to only rotatory polarization mirror, one angle of every rotation
Degree is grouped again it is necessary to all the sensors of internal sensor array, will cause the computationally intensive of master control.
Compared with prior art, the utility model has the following beneficial effects:
1. the polarization characteristic for having used laser of the utility model novelty uses same spectra in equipment, but polarizes
The orthogonal laser in direction can provide more data spectrum, make data transmission bauds faster;
It is reached 2. the utility model is innovative using that can be combined with the light sensor arrays of electronic rotation and polariscope
To separated incident light, keep signal apparent;
3. the utility model novelty controls all electrical components and laser power using independent behavior controller,
It is finely adjusted in addition it can exchange the optical signal incident angle of optical lens by automatic tracing orientation system, so that signal transmitting and receiving
Position is more acurrate.
Detailed description of the invention
Fig. 1 is the laser emitter main structure figure of the utility model;
Fig. 2 is the light modulation lens combination structure schematic diagram of the utility model;
Fig. 3 is that the inner sensor array of the utility model and polariscope cooperate schematic diagram;
Fig. 4 is the overall structure diagram of the utility model;
Fig. 5 is the top view of the utility model;
Fig. 6 is facula deviation schematic diagram when the automatic tracing orientation system of the utility model is finely adjusted;
Fig. 7 mutually sends schematic diagram when light data for two relative devices of the utility model;
Fig. 8 is the structure and connection relationship diagram of the master controller of the utility model;
Fig. 9 is the structure and connection relationship diagram of the behavior controller of the utility model;
Figure 10 is the high frequency and power controller principle schematic diagram of the utility model
Figure 11 is that the ground of the utility model transmits schematic diagram in face of the data of satellite;
Figure 12 is the data transmission standard flow chart of the utility model.
In figure: 1- laser transceiver;2- laser emitter;201- data laser;202- positioning, interference compensation laser
Device;3- light sensor arrays;301- inner sensor array;302- outer sensor array;303- sensor conductor;304- polarization
Mirror;305- angle-controlled motor;4- adjusts lens outer container;401- focusing mirror;402- triangular support bracket;403- automatic tracing
Orientation system;404- dims lens;4041- dims lens gear;405- helical gear;406- gear controls motor;407- tune
Optical lens fixed link;408- angle-controlled motor;5- power supply;501- power supply line;6- data line;7- light;8- master controller;
801- binary data converting unit;802- data storage cell;803- receives optical data storage unit;804- optical information receives
Converting unit;805- sends optical data storage unit;806- system data store;807- emits laser power stability control
Unit;808- data input and output;809- optical parameter input and output control unit;8010- module data regulates and controls unit;9- behavior
Controller;901- light sensor arrays angle and lens adjust automatic control unit;The photosensitive biography of 902- lens adjust automatically
Sensor response range section;903- photosensitive sensor signal conversion unit;904- incident light source parameter calculation unit;905- laser
Power control unit;906- optical information parameter input and output;907- automatic tracing orientation system parameter compensates control parameter output;
10- high frequency and power controller;1001- HF switch;1002- power amplification circuit;1003- diode;1004- triode;
1005- capacitor.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right",
The orientation or positional relationship of the instructions such as "top", "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only
For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific
Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.
A kind of long distance laser communication device as shown in figs. 1-12, including laser transceiver 1, sensor conductor 303, tune
Save lens outer container 4, power supply 5, power supply line 501, data line 6, master controller 8, behavior controller 9 and high frequency and power controller
10, the left side of laser transceiver 1 is provided with laser emitter 2, is provided with photosensitive sensor battle array on the right side of the inner cavity of laser transceiver 1
Column 3, the left side of light sensor arrays 3 are provided with angle-controlled motor 305, and the outer right wall of laser transceiver 1 is socketed with tune
Lens outer container 4 is saved, the intracavity bottom for adjusting lens outer container 4 is provided with gear control motor 406, the adjusting lens outer container 4
Inner cavity is provided with helical gear 405, and the power output end of gear control motor 406 is provided with and matches with helical gear 405
Transmission gear, light modulation lens 404 are provided between two groups of helical gears 405, dim lens 404 far from light sensor arrays
Light 7 is injected in 3 side, is focused by dimming lens 404 to light 7, collecting signal, dim lens 404 top and
Bottom is provided with light modulation lens gear 4041, and two groups of light modulation lens gears 4041 are socketed with light modulation lens fixed link 407, swash
The outer circumferential walls of optical transceiver 1 are provided with triangular support bracket 402, and triangular support bracket 402 is connected far from one end of laser transceiver 1
There is focusing mirror 401, and focusing mirror 401, close to light modulation lens 404, focusing mirror 401 is far from triangular support bracket 402
One end at the top of be provided with automatic tracing orientation system 403;Laser emitter 2 includes that eight groups of data exciters 201 and one group are fixed
Position, interference compensation laser 202, and positioning, the top of interference compensation laser 202, lower section, left and right side along position,
202 axis direction of interference compensation laser is placed with two groups of data exciters 201, in four groups of data exciters 201 of upper and lower
Heart point line and the central point line of four groups of data exciters 201 of left and right sides are mutually perpendicular to;Light sensor arrays 3 include interior biography
Sensor array 301, outer sensor array 302 and polariscope 304,301 outer wall of inner sensor array are socketed with outer sensor array
302, inner sensor array 301 is identical with the center location of outer sensor array 302, and is provided on outer sensor array 302
The photosensitive sensor response range section 902 of lens adjust automatically annular in shape, for controlling the photosensitive sensor battle array of lens
Column position responds section, when focal beam spot is not in this section, so that it may and it can cross position and calculate, to obtain parameter, thus
It is far and near to control lens adjustment, inner sensor array 301 is provided with polariscope 304, polariscope 304 close to 404 side of lens is dimmed
It is fixedly connected with inner sensor array 301, is close to secure fit between inner sensor array 301 and polariscope 304, in rotation
Inner sensor array 301 rotates simultaneously with polariscope 304, relative to only rotatory polarization mirror 304, one angle of every rotation it is necessary to
The all the sensors of internal sensor array 301 are grouped again, will cause the computationally intensive of master control;High frequency and power control
Device 10 processed includes HF switch 1001 and power amplification circuit 1002, and power amplification circuit 1002 includes diode 1003, three poles
Pipe 1004 and capacitor 1005, power supply 5 are successively electrically connected diode 1003, capacitor 1005 and triode by power supply line 501
1004, behavior controller 9 is electrically connected triode 1004, one kind of amplifying circuit, for improving output work by data line 6
Rate, master controller 8 are electrically connected by data line 6 and HF switch 1001, and behavior controller 9 is put by data line 6 with power
Big circuit 1002 is electrically connected, and power amplification circuit 1002 is electrically connected by power supply line 501 and data exciter 201 and power supply 5
It connects;Master controller 8 include binary data converting unit 801, data storage cell 802, receive optical data storage unit 803,
Optical information receives converting unit 804, sends optical data storage unit 805, system data store 806, transmitting laser power
Stability contorting unit 807, data input and output 808, optical parameter input and output control unit 809 and module data regulate and control unit
8010, power supply 5 passes through power supply line 501 and binary data converting unit 801, data storage cell 802, reception optical data storage
Unit 803, optical information receive converting unit 804, send optical data storage unit 805, system data store 806, transmitting
Laser power stability control unit 807, data input and output 808, optical parameter input and output control unit 809 and module data tune
The connection of 8010 electric wire of unit is controlled, module data regulates and controls unit 8010 and passes through data line 6 and binary data converting unit 801, number
According to storage unit 802, receive optical data storage unit 803, transmission optical data storage unit 805, system data store
806, emit 809 electricity of laser power stability control unit 807, data input and output 808 and optical parameter input and output control unit
Property connection, binary data converting unit 801 is electrically connected by data line 6 and data input and output 808, receives light data and deposit
Storage unit 803 receives converting unit 804 by data line 6 and optical information and is electrically connected, and optical information receives converting unit 804 and passes through
Sensor conductor 303 and inner sensor array 301 are electrically connected, and are sent optical data storage unit 805 and are passed through data line 6 and high frequency
And power controller 10 is electrically connected, transmitting laser power stability control unit 807 passes through data line 6 and power amplification circuit
1002 are electrically connected, and optical parameter input and output control unit 809 is electrically connected by data line 6 and behavior controller 9;Behavior control
Device 9 processed includes that light sensor arrays angle and lens adjust automatic control unit 901, photosensitive sensor signal conversion unit
903, it incident light source parameter calculation unit 904, laser power control unit 905, optical information parameter input and output 906 and chases after automatically
Track orientation system parameter compensates control parameter output 907, and power supply 5 is by power supply line 501 and light sensor arrays angle and thoroughly
Mirror adjusts automatic control unit 901, photosensitive sensor signal conversion unit 903, incident light source parameter calculation unit 904, laser
Power control unit 905, optical information parameter input and output 906 and the compensation control parameter output of automatic tracing orientation system parameter
907 are electrically connected, and angle-controlled motor 305 and gear control motor 406 pass through power supply line 501 and light sensor arrays angle
Degree and lens adjustment automatic control unit 901 are electrically connected, and automatic tracing orientation system 403 passes through data line 6 and automatic tracing
Orientation system parameter compensates control parameter output 907 and is electrically connected, and outer sensor array 302 passes through sensor conductor 303 and light
Dependent sensor signal conversion unit 903 is electrically connected, and incident light source parameter calculation unit 904 passes through data line 6 and light sensor
Device array angle and lens adjust automatic control unit 901, photosensitive sensor signal conversion unit 903, laser power control list
Member 905, optical information parameter input and output 906 and automatic tracing orientation system parameter compensation control parameter output 907 are electrically connected,
Laser power control unit 905 passes through data line 6 and photosensitive sensor signal conversion unit 903 and high frequency and power controller 10
It is electrically connected, optical information parameter input and output 906 are electrically connected by data line 6 and master controller 8.Wherein, each component function
It is as follows:
201- data laser: being used for transmission the laser of data optical signal, can be arranged according to polarization direction multiple
Same spectra but the different laser of polarization angle, can be generated the reference of more long number.
202- positioning, interference compensation laser: the power of this laser is constant, therefore has atmospheric interference to cause this
When the optical power down that laser generates, parameter will be sent to behavior controller 9 by outer sensor array 302, pass through calculating
Power down ratio reinforces the transmission power of data laser, to keep data transmission more stable.
3- light sensor arrays: being the photosensitive sensor combination of the different spectrum of multiple correspondences, the spectrum and laser of response
Transmitter spectrum is identical.
301- inner sensor array: for receiving data laser, rotational angle can be carried out with motor control.
302- outer sensor array: light for receiving positioning, interference compensation laser 202, and adjusted with this data
The aligning direction of whole R-T unit, the rotational angle of inner sensor and the transmission power of laser emitter are will not turning for fixation
It is dynamic.
303- sensor conductor: the micro-current for all the sensors is conducted.
304- polariscope: being attached on the photosensitive inner sensor for passing device array 3, by adjusting the light-source angle with transmitting terminal,
The light transmission of then property is selected, so that it is identical so that laser is can be used two spectrum, but polarization angle orthogonal laser
Device carries out optical signal launch.
305- angle-controlled motor: for adjusting the angle of inner sensor, so that the incident light phase of two groups of photosensitive sensors
Parallactic angle degree is identical as the phase angle of received light always.
401- focusing mirror: the light 7 come for assembling long drive.
402- triangular support bracket: it is used for fixed laser transceiver 1.
403- automatic tracing orientation system: belonging to prior art, ground satellite communication antenna and radio astronomical telescope
Tracing equipment all uses same principle, including satellite orbit computing unit or tour the heavens trajectory calculation unit, motor control
Device, driving motor either hydraulic pump liquid feeding cylinder pressure.Effect is the rail parameter by having set, along with after communication connection
The correction of progress is toured the heavens required for being directed at equipment always with quasi- position or along track with certain speed, herein
It will do it a parameter input, to guarantee more accurate alignment, and belong to prior art.
404- dims lens: for adjusting the angle of incident light, keeping the focus on light beam of focusing mirror 401 photosensitive in entrance
In basic collimated light beam when sensor array 3, high thermal damage is generated to sensor when preventing from focusing on the point an of very little.
4041- dims lens gear: allowing light modulation lens 404 that can move repeatedly for cooperating with helical gear 405.
405- helical gear: by circular-rotation, it can move up and down light modulation lens 404, to adjust light beam.
406- gear controls motor: passing through the rotation of rotation control helical gear 405.
407- dims lens fixed link: for preventing light modulation lens 404 from rotating with helical gear 405.
408- angle-controlled motor: for adjusting the level angle of light sensor arrays 3, guarantee the laser with transmitting terminal
Polarization angle is identical.
5- power supply: similar computer power, single input, multichannel output.
501- power supply line: it is connect for power supply with the electric current at each position of device.
6- data line: data for device or control electric current transmission.
7- light: simulated laser transmission line.
8- master controller: the total controller of data.
801- binary data converting unit: the Date Conversion Unit the same with patent is associated with.
802- data storage cell: the unit for being stored to all transmission of data, when reception optical data storage unit
803 and send optical data storage unit 805 data volume it is excessive when, can store in this unit, data can be increased
Storage efficiency, increase the utilization rate of memory.
803- receives optical data storage unit: the unit for being stored to received light data.
804- optical information receives converting unit: for receiving the electric signal of photosensitive sensor and being converted into binary data.
805- sends optical data storage unit: for storing optical control signal data to be sent as optical fiber patent,
In error correction, the storage of the data to be transferred when being retransmitted to the data in the corresponding unit time.
806- system data store: being used for memory system data, including all parts initial parameter, system run journey
Sequence, the control data by being added after input.
807- emits laser power stability control unit: emitting for the positioning to transmitting, interference compensation laser 202
Laser carries out power control.The hot spot of laser can be zoomed in or out according to distance, not needed more in the optic communication of short distance
Strong laser power, and it is remote on then need stronger laser power, therefore according to the different positioning of different range transmissions,
Interference compensation laser power can reach more stable signal transmission effect.
808- data input and output: to external data input and output.
809- optical parameter input and output control unit: it communicates with each other optical parameter with behavior controller 9, is conducive to the transmitting of light
And calculating.
8010- module data regulates and controls unit: for controlling all data informations and controlling the transferring of information, transmit, change.
9- behavior controller: the controller of control equipment all about motor and power.
901- light sensor arrays angle and lens adjust automatic control unit: according to state modulator angle-controlled motor
305 and gear control motor 406.
The photosensitive sensor response range section of 902- lens adjust automatically: for controlling the light sensor arrays of lens
3 position response sections, when focal beam spot is not in this section, so that it may position can be crossed and calculated, to obtain parameter, to control
System light modulation lens 404 adjust distance.
903- photosensitive sensor signal conversion unit: basic optical signal is counted for converting, and the binary system of conversion
Data go to incident light source parameter calculation unit 904.
904- incident light source parameter calculation unit: for calculating all parameters of incident light, such as polarization angle, power, light
Source relative position, opposite angular speed, distance, relative power decaying (including Atmospheric Absorption and block) etc..
905- laser power control unit: the relative power decaying provided according to incident light source parameter calculation unit 904 come
Increase and decrease the power of emitting laser, laser power stability when guaranteeing that other side receives.
906- optical information parameter input and output: for carrying out data exchange with master controller 8.
907- automatic tracing orientation system parameter compensates control parameter output: by carrying out calculations of offset to launching spot,
Microcontroller data are transferred to automatic tracing orientation system 403 with reach tour the heavens track run when, can be more true it is mutual right
It is quasi-.
10- high frequency and power controller: for controlling the tranmitting frequency of laser.
1001- HF switch: the control switch of high-frequency folding.
1002- power amplification circuit: it is a kind of universal architecture, belongs to the prior art.
1003- diode: current reflux is prevented.
1004- triode: for controlling capacitance current.
1005- capacitor: it for storing more electric currents, is quickly powered with reaching when needing higher power.
One of the present embodiment has particular application as, and in use, specific embodiment is as follows for the utility model: embodiment
One, it debugs
A pair of of antenna carries out mutual data communication, in internal existing parameter, uses the relative position of other side
Positioning, interference compensation laser 202 carry out Laser emission.When both sides receive the laser of other side, 9 basis of behavior controller
Optical information received by outer sensor array 302 carries out parameter calculating, and sends fine tuning control to automatic tracing orientation system 403
Signal processed, is finely adjusted device.When as carried out data transmission in Figure 11 to satellite, since distance is remote, under to a certain degree, swash
The hot spot of light scatter.And since the speed of service of satellite is fast, in debugging and normal use, very small essence
Degree can all cause very big offset.Therefore use an individual behavior controller 9, to all moving parts carry out control be must
It needs.Be transmitted to after the photosensitive sensor signal conversion unit 903 of behavior controller 9 converts optical signals into binary data into
It penetrates light source parameters computing unit 904 to be calculated, obtains a series of light data parameter, and corresponding parameter is sent to laser
Power control unit 905 is used to control laser power, light sensor arrays angle and lens adjustment automatic control unit 901 and uses
Come control inner sensor array 301 angle and light modulation lens 404 distance come make spot size just, automatic tracing orientations
System parameter compensation control parameter output 907 is used to finely tune automatic tracing orientation system 403.Optical parameter input and output are controlled simultaneously
Unit 809 carries out communicating with each other for optical parameter, compares to the parameter to data laser 201, links up and completes for the first time
Debugging is completed.
Embodiment two, data transmission
After the completion of first time debugs, so that it may carry out the transmission of data and debugging.Here by mutual laser
Parameter is arranged, and starts to debug data laser 201.After mutually sending several debugging light, so that it may determine
The working condition of data laser 201, then carries out data transmission.Transmission principle is based on Chinese invention patent publication number
A kind of high system Transmission system of the number of electromagnetic wave simulation disclosed in CN201510958059.6 and its transmission method, but control principle
Based on HF switch 1001.Master controller 8 realizes the high frequency on-off of laser by control HF switch 1001, so that data
Laser 201 is quickly glistened, to transmit data.After the principle using polarised light, two sets of complete phases can be used
Laser group and corresponding photosensitive sensor with spectrum.Pass through orthogonal polarized lenses 304, so that it may so that inner sensor
Sensor on array 301 receives the laser of different polarization angle, will not interfere.Secondary tune after the completion of data transmission several times
Examination is completed, so that it may be carried out data and formally be transmitted.
Embodiment three, error correction
Atmospheric interference is had in laser data transmission progress or other objects are blocked, to cause optical signal function
The decrease of rate.At this moment by being compared to mutual positioning, 202 power parameter of interference compensation laser, so that it may obtain dry
Degree is disturbed, and corresponding to the progress power regulation of data laser 201.By power amplification circuit 1002 to data laser
201 carry out power amplification, so that data signal strength keeps stablizing when receiving.And when positioning, 202 function of interference compensation laser
When rate reduces to a certain extent, so that it may stop data transmission.Behavior controller 9 passes through 302 pairs of institutes of outer sensor array simultaneously
There is incident laser to be counted.With the emitting times of statistical data laser 201.When the unit set in transport protocol
When data laser firing signals number is not identical in time, then representing in this unit time, data transmission is wrong, therefore,
Optical signal quantity error code can be sent to master controller 8.And master controller 8 also can be by inner sensor array 301, to data light
Signal is counted, as long as soon as the two counting has the mistake for representing data transmission when the error occurs, master controller 8 can root
Retransmission data code is sent to other side according to the system data prestored.After receiving code, other side's master controller 8 can be from transmission light
The data transferred in this unit time inside data storage cell 805 are emitted again.
Example IV send data again
After the data emitted again are sent, so that it may be incorporated into data queue, be converted by binary data again
Unit 801 is converted into outbound data, by data input and output 808, is exported.And inputting process then is that data are inputted by data
Enter binary data converting unit 801 after 808 input of output to be converted into sending optical data storage after simulating high binary data
Unit 805 store etc. to be launched.Optical data storage unit 805 is sent indeed through control high frequency and power controller
10 carry out data laser controlling.Data transmitting is carried out by the data laser 201 that behavior controller 9 controls power.Due to
Data-signal is possible to mistake occur, therefore the data for sending storage in optical data storage unit 805 can store certain time again,
To guarantee to send when needing to send again.
In the description of this specification, the description of reference term " one embodiment ", " example ", " specific example " etc. means
Particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least one of the utility model
In embodiment or example.In the present specification, schematic expression of the above terms be not necessarily referring to identical embodiment or
Example.Moreover, particular features, structures, materials, or characteristics described can be in any one or more embodiment or examples
In can be combined in any suitable manner.
The preferred embodiment in the utility model disclosed above is only intended to help to illustrate the utility model.Preferred embodiment is simultaneously
There is no the details that detailed descriptionthe is all, also not limiting the utility model is only the specific embodiment.Obviously, according to this theory
The content of bright book can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to preferably
The principles of the present invention and practical application are explained, so that skilled artisan be enable to better understand and utilize this
Utility model.The utility model is limited only by the claims and their full scope and equivalents.
Claims (6)
1. a kind of long distance laser communication device, including laser transceiver (1), sensor conductor (303), adjusting lens outer container
(4), power supply (5), power supply line (501), data line (6), master controller (8), behavior controller (9) and high frequency and power controller
(10), it is characterised in that: be provided with laser emitter (2) on the left of the laser transceiver (1), the laser transceiver (1)
Inner cavity on the right side of be provided with light sensor arrays (3), it is electric that angled control is arranged in the left sides of the light sensor arrays (3)
Machine (305), the outer right wall of the laser transceiver (1), which is socketed with, adjusts lens outer container (4), the adjusting lens outer container (4)
Intracavity bottom be provided with gear control motor (406), it is described adjust lens outer container (4) inner cavity be provided with helical gear
(405), and the power output end of gear control motor (406) is provided with the transmission gear matched with helical gear (405), and two
It is provided with light modulation lens (404) between the group helical gear (405), is all provided at the top and bottom of the light modulation lens (404)
It is equipped with light modulation lens gear (4041), light modulation lens gear (4041) described in two groups is socketed with light modulation lens fixed link (407),
The outer circumferential walls of the laser transceiver (1) are provided with triangular support bracket (402), and the triangular support bracket (402) is far from laser
One end of transceiver (1) is connected with focusing mirror (401), and focusing mirror (401) is close to light modulation lens (404), described
Focusing mirror (401) is provided with automatic tracing orientation system (403) far from one end top of triangular support bracket (402);
The laser emitter (2) includes eight groups of data exciters (201) and one group of positioning, interference compensation laser (202), and
Positioning, the top of interference compensation laser (202), lower section, left and right side are along positioning, interference compensation laser (202) axis
Line direction is placed with two groups of data exciters (201), the central point line of data exciter (201) described in four groups of upper and lower and a left side
The central point line of data exciter (201) described in four groups of right side is mutually perpendicular to;
The light sensor arrays (3) include inner sensor array (301), outer sensor array (302) and polariscope
(304), inner sensor array (301) outer wall is socketed with outer sensor array (302), the inner sensor array (301)
Light modulation lens (404) side is provided with polariscope (304);
The high frequency and power controller (10) include HF switch (1001) and power amplification circuit (1002), the master control
Device (8) is electrically connected by data line (6) and HF switch (1001), and the behavior controller (9) passes through data line (6) and function
Rate amplifying circuit (1002) is electrically connected, and the power amplification circuit (1002) passes through power supply line (501) and data exciter
(201) it is electrically connected with power supply (5);
The master controller (8) include binary data converting unit (801), data storage cell (802), receive light data deposit
Storage unit (803), optical information receive converting unit (804), send optical data storage unit (805), system data store
(806), emit laser power stability control unit (807), data input and output (808), optical parameter input and output control unit
(809) and module data regulation unit (8010), the power supply (5) pass through power supply line (501) and binary data converting unit
(801), data storage cell (802), reception optical data storage unit (803), optical information receive converting unit (804), send
Optical data storage unit (805), system data store (806), transmitting laser power stability control unit (807), data
Input and output (808), optical parameter input and output control unit (809) are connected with module data regulation unit (8010) electric wire, institute
It states module data regulation unit (8010) and passes through data line (6) and binary data converting unit (801), data storage cell
(802), receive optical data storage unit (803), send optical data storage unit (805), system data store (806),
Emit laser power stability control unit (807), data input and output (808) and optical parameter input and output control unit (809)
It being electrically connected, the binary data converting unit (801) is electrically connected by data line (6) and data input and output (808),
The reception optical data storage unit (803) receives converting unit (804) by data line (6) and optical information and is electrically connected, institute
Optical information reception converting unit (804) is stated to be electrically connected by sensor conductor (303) and inner sensor array (301), it is described
It sends optical data storage unit (805) to be electrically connected by data line (6) and high frequency and power controller (10), the transmitting swashs
Light power stabilising control unit (807) is electrically connected by data line (6) and power amplification circuit (1002), and the optical parameter is defeated
Enter output control unit (809) to be electrically connected by data line (6) and behavior controller (9);
The behavior controller (9) includes light sensor arrays angle and lens adjustment automatic control unit (901), photosensitive biography
Sensor signal converting unit (903), incident light source parameter calculation unit (904), laser power control unit (905), optical information
Parameter input and output (906) and automatic tracing orientation system parameter compensation control parameter output (907), the power supply (5) pass through
Power supply line (501) and light sensor arrays angle and lens adjustment automatic control unit (901), photosensitive sensor signal are converted
Unit (903), incident light source parameter calculation unit (904), laser power control unit (905), optical information parameter input and output
(906) it is electrically connected with automatic tracing orientation system parameter compensation control parameter output (907), the angle-controlled motor
(305) and gear control motor (406) passes through power supply line (501) and light sensor arrays angle and the automatic control of lens adjustment
Unit (901) processed is electrically connected, and the automatic tracing orientation system (403) passes through data line (6) and automatic tracing orientation system
Parameter compensate control parameter output (907) be electrically connected, the outer sensor array (302) by sensor conductor (303) with
Photosensitive sensor signal conversion unit (903) is electrically connected, and the incident light source parameter calculation unit (904) passes through data line
(6) automatic control unit (901), photosensitive sensor signal conversion unit are adjusted with light sensor arrays angle and lens
(903), laser power control unit (905), optical information parameter input and output (906) and the compensation of automatic tracing orientation system parameter
Control parameter exports (907) and is electrically connected, and the laser power control unit (905) passes through data line (6) and photosensitive sensor
Signal conversion unit (903) and high frequency and power controller (10) are electrically connected, and the optical information parameter input and output (906) are logical
Data line (6) and master controller (8) are crossed to be electrically connected.
2. a kind of long distance laser communication device according to claim 1, it is characterised in that: the inner sensor array
(301) identical with the center location of outer sensor array (302), and be provided on outer sensor array (302) annular in shape
The photosensitive sensor response range section (902) of lens adjust automatically.
3. a kind of long distance laser communication device according to claim 1, it is characterised in that: the light modulation lens (404)
Light (7) are injected in side far from light sensor arrays (3).
4. a kind of long distance laser communication device according to claim 1, it is characterised in that: the laser emitter (2)
Laser polarization angle be 0-90 °.
5. a kind of long distance laser communication device according to claim 1, it is characterised in that: the power amplification circuit
(1002) include diode (1003), triode (1004) and capacitor (1005), the power supply (5) by power supply line (501) according to
Secondary electric connection diode (1003), capacitor (1005) and triode (1004), the behavior controller (9) pass through data line
(6) triode (1004) are electrically connected.
6. a kind of long distance laser communication device according to claim 1, it is characterised in that: the polariscope (304) with
Inner sensor array (301) is fixedly connected.
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CN201821835345.9U CN208849771U (en) | 2018-11-08 | 2018-11-08 | A kind of long distance laser communication device |
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Cited By (1)
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CN109150305A (en) * | 2018-11-08 | 2019-01-04 | 徐州时空思维智能科技有限公司 | A kind of long distance laser communication device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109150305A (en) * | 2018-11-08 | 2019-01-04 | 徐州时空思维智能科技有限公司 | A kind of long distance laser communication device |
CN109150305B (en) * | 2018-11-08 | 2024-02-02 | 徐州时空思维智能科技有限公司 | Remote laser communication device |
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