A kind of quick opto-electronic conversion integrator
Technical field
The utility model is related to photoelectric converter engineering device technique field, specially a kind of quick opto-electronic conversion integrator.
Background technology
Photoelectric converter be a kind of equipment similar to base band MODEM (digital modems) and base band MODEM not
Be access be Leased line, be optical signal, be divided into full duplex flow control, half-duplex back pressure control, photoelectric converter (also known as
Data collector), it there are 100,000,000 data collectors and gigabit data collector, is a kind of Fast Ethernet, data transmission
Rate reaches 1Gbps, the access control mechanisms of CSMA/CD and compatible with existing Ethernet is still used, in the support of wiring system
Under, original Fast Ethernet smooth upgrade can be made and the original investment of user that can adequately protect, gigabit network technology have become
Thus the one preferred technique of New-deployed Network and transformation also improves the performance requirement of comprehensive wiring system, affiliated brand has TC-net,
Three prosperous communications, the producers such as Chinese letter communication, wherein have a technical grade also has commercial style, the parameter index of general commercial style is relatively low,
Range is relatively narrow, and the performance of technical grade is more excellent, is suitable for industrial environment.
But existing opto-electronic conversion integrator turns due to the defect in design although can photoelectricity be carried out photoelectric information
It changes and integrates, but since the circuit that photoelectricity integrates is excessively single, this makes the opto-electronic conversion integrator not adapt to work production
Demand, at the same carry out opto-electronic conversion and it is integrated when, can only be carried out according to normal speed, when transitional information is huge, this will consumption
Take the plenty of time, in turn results in conversion not in time.
So how to design a kind of quick opto-electronic conversion integrator, becoming us will currently solve the problems, such as.
Utility model content
The purpose of this utility model is to provide a kind of quick opto-electronic conversion integrators, to solve in above-mentioned background technology
The circuit integrated due to photoelectricity proposed is excessively single, this makes the opto-electronic conversion integrator not adapt to work production requirement,
Simultaneously carry out opto-electronic conversion and it is integrated when, the problem of can only being carried out according to normal speed.
To achieve the above object, the utility model provides the following technical solutions:A kind of quick opto-electronic conversion integrator, packet
Photoelectricity integral box is included, the place of keeping left is equipped with display screen, and the display screen and the photoelectricity collection on front side of the photoelectricity integral box
It is fixedly connected at case, the right side of the display screen is equipped with model selection block, and the model selection block and the display screen are close
It connects, power key is installed, and the power key is electrically connected with the photoelectricity integral box on the right side of the model selection block, institute
The right lateral surface front for stating photoelectricity integral box is equipped with ventilation and heat slot, and the ventilation and heat slot and the photoelectricity integral box are solid
The inside of fixed connection, the ventilation and heat slot is equipped with ventilation and heat piece, and the ventilation and heat piece and the ventilation and heat slot
Close connection, the ventilation and heat on piece is equipped with ventilation opening, and ventilation opening insertion is arranged in the ventilation and heat on piece, institute
The rear side surface for stating photoelectricity integral box is equipped with power interface by left side, and the power interface is fixed with the photoelectricity integral box
The right side of connection, the power interface is equipped with photoemission block, and the photoemission block and the photoelectricity integral box by top
The inside of close connection, the photoemission block is equipped with data emission port, and data emission port insertion is arranged described
In photoemission block, the bottom of the photoemission block is equipped with warning light, and the warning light is fixed with the photoemission block
Connection, the bottom of the warning light is equipped with opto-electronic receiver block, and the opto-electronic receiver block is closely connect with the warning light, institute
The inside for stating opto-electronic receiver block is equipped with data receiver mouth, and data receiver mouth insertion is arranged in the opto-electronic receiver block
In.
Further, the die-filling formula selection block is internally provided with mode selecting key, and the mode selecting key with it is described
Model selection block is electrically connected.
Further, the bottom of the power key is equipped with frequency adjusting knob, and the frequency adjusting knob and the power supply
Key is fixedly connected.
Further, the rear side of the ventilation and heat slot is equipped with voltage stabilizing driver, and the voltage stabilizing driver and institute's photoelectricity
Integral box closely connects.
Further, the inside of the power interface, which is equipped with, reinforces power supply core, and reinforcing power supply core insertion setting
In the power interface.
Compared with prior art, the utility model has the beneficial effects that:This kind of quick opto-electronic conversion integrator, by right
The device carries out many-sided improvement, and opto-electronic receiver block and photoemission block are extended so that opto-electronic receiver block and photoelectricity hair
More data emission ports and data receiver mouth can be installed by penetrating on block so that the opto-electronic conversion integrator can with it is multiple
External equipment is attached, and carries out data conversion, to meet the requirement in real work production, while by using frequency
Rate adjusting knob adjusts frequency using frequency adjusting knob, and then effectively controls data transfer speeds, this so that the opto-electronic conversion is integrated
Photoelectric information efficient, high speed can be converted and integrated by device.
Description of the drawings
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is partial structural diagram on rear side of the photoelectricity integral box of the utility model;
In figure:1- photoelectricity integral boxes;2- mode selecting keys;3- display screens;4- model selection blocks;5- frequency adjusting knobs;6-
Power key;7- ventilation and heat slots;8- ventilation and heat pieces;9- ventilation openings;10- voltage stabilizing drivers;11- data emission ports;12- electricity
Source interface;13- reinforces power supply core;14- data receiver mouths;15- warning lights;16- opto-electronic receiver blocks;17- photoemission blocks.
Specific implementation mode
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
The every other embodiment obtained, shall fall within the protection scope of the present invention.
- 2 are please referred to Fig.1, the utility model provides a kind of technical solution:A kind of quick opto-electronic conversion integrator, including
The front side place of keeping left of photoelectricity integral box 1, the photoelectricity integral box 1 is equipped with display screen 3, and the display screen 3 and the photoelectricity
Integral box 1 is fixedly connected, and the right side of the display screen 3 is equipped with model selection block 4, and the model selection block 4 and the display
The right side of the closely connection of screen 3, the model selection block 4 is equipped with power key 6, and the power key 6 and the photoelectricity integral box 1
Be electrically connected, the right lateral surface front of the photoelectricity integral box 1 is equipped with ventilation and heat slot 7, and the ventilation and heat slot 7 with
The photoelectricity integral box 1 is fixedly connected, and the inside of the ventilation and heat slot 7 is equipped with ventilation and heat piece 8, and the ventilation dissipates
Backing 8 is closely connect with the ventilation and heat slot 7, and the ventilation and heat piece 8 is equipped with ventilation opening 9, and the ventilation opening 9 is embedding
Entering to be arranged on the ventilation and heat piece 8, the rear side surface of the photoelectricity integral box 1 is equipped with power interface 12 by left side, and
The power interface 12 is fixedly connected with the photoelectricity integral box 1, and the right side of the power interface 12 is sent out by top equipped with photoelectricity
Block 17 is penetrated, and the photoemission block 17 is closely connect with the photoelectricity integral box 1, the inside installation of the photoemission block 17
There is data emission port 11, and the data emission port 11 insertion is arranged in the photoemission block 17, the photoemission block
17 bottom is equipped with warning light 15, and the warning light 15 is fixedly connected with the photoemission block 17, the warning light 15
Bottom is equipped with opto-electronic receiver block 16, and the opto-electronic receiver block 16 is closely connect with the warning light 15, the opto-electronic receiver
The inside of block 16 is equipped with data receiver mouth 14, and the data receiver mouth 14 insertion is arranged in the opto-electronic receiver block 16.
Further, the die-filling formula selection block 4 is internally provided with mode selecting key 2, and the mode selecting key 2 and institute
State model selection block 4 electric connection, the mode selecting key 2 can effectively adjust the opto-electronic conversion integrator enter it is different
Pattern, and then complete corresponding data conversion.
Further, the bottom of the power key 6 is equipped with frequency adjusting knob 5, and the frequency adjusting knob 5 with it is described
Power key 6 is fixedly connected, and the frequency adjusting knob 5 can be by adjusting knob, so that the opto-electronic conversion integrator reaches
Corresponding frequency, so as to quickly be converted photooptical data.
Further, the rear side of the ventilation and heat slot 7 is equipped with voltage stabilizing driver 10, and the voltage stabilizing driver 10 and institute
Photoelectricity integral box 1 closely connects, and the voltage stabilizing driver 10 can be effectively that the opto-electronic conversion integrator forms stable pressure
Source, and then ensure that photooptical data effective integration.
Further, the inside of the power interface 12, which is equipped with, reinforces power supply core 13, and the reinforcing power supply core 13 is embedding
Enter to be arranged in the power interface 12, the reinforcing power supply core 13 effectively will keep power interface 12 and external power supply close
Connection, to ensure that powered stable.
Operation principle:This kind of quick opto-electronic conversion integrator, first in place by the installation of photoelectricity integral box 1,
First check whether each accessory of the opto-electronic conversion integrator is normal, by power cord, by power interface 12 and external power supply phase
Even, the reinforcing power supply core 13 on power interface 12 will effectively play its function, effective to ensure that power supply is unimpeded, open power key
6, it would be desirable to it carries out the optical fiber of opto-electronic conversion and is connected with the photoemission block 17 on the photoelectricity integral box 1 and opto-electronic receiver block 16,
When data are sent to the data receiver mouth 14 on opto-electronic receiver block 16 by external equipment by photovoltaic, data receiver mouth 14 will
Photoelectric information acquires, and then by the integrated conversion of photoelectricity integral box 1, to feed back to information on display screen 3, operator's root
Mode selecting key 2 according to information on display screen 3, and then in shaping modes selection block 4 and frequency adjusting knob 5 so that will receive
Photoelectric information quickly convert and integrate, external equipment is finally transmitted to by the data emission port 11 on photoemission block 17.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is appreciated that can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.