CN205017316U - Can be at signal gathering and transmission equipment of GIS map location through network - Google Patents

Abstract

The utility model provides a can be at signal gathering and transmission equipment of GIS map location through network, include: control website, user intelligent terminal and remote terminal, the remote terminal data communication end is connected to control website data communication end, the remote terminal data communication end is through wireless network connection user intelligent terminal data transmission end, the control website includes data processor and data communication interface, the data communication interface is connected to data processor data transmission end, and through data communication interface connection remote terminal, data according to data processor sends show the GIS map locating information of monitoring the website in real time at remote terminal. Combine together the surveillance center station with the GIS map. Reach timely grasp field device operation conditions, especially unusual situation and fast speed adjusting degree resource, the effect of taking measures.

Description

Can at the signal gathering of GIS map location and transmission equipment by network

Technical field

The utility model relates to electronic circuit control field, particularly relate to a kind of by network can GIS map location signal gathering and transmission equipment.

Background technology

Along with the rapid raising of the network bandwidth, computer process ability and memory capacity, and the appearance of the various usable video information processing technology, video monitoring enters the cybertimes of total digitalization.Control and command center in the past, head end video is presented to user by the mode switching display by general employing screen wall and client, can only by superposing word and judge video point position, state and real time data on image in software tree list, form, the particular geographic location information of watch-dog is indefinite, directly perceived not.Along with the day by day huge and number of devices of supervisory control system increases gradually, the pressure of the operator on duty of Surveillance center also increases gradually, cannot in magnanimity control point fast finding, Daily Round Check is checked wastes time and energy; Incident periphery monitoring point cannot be located in time, emergency cooperative is not prompt enough.

In the monitoring pattern of traditional industries is shown, monitor supervision platform perfectly can not be mated GIS map, but the application of GIS on safety monitoring platform has begun to take shape, no matter the combination of the two does not all also reach gratifying degree from the viewpoint of range or the degree of depth.

Utility model content

The utility model is intended at least solve the technical problem existed in prior art, especially innovatively propose a kind of by network can GIS map location signal gathering and transmission equipment.

In order to realize above-mentioned purpose of the present utility model, the utility model provide a kind of by network can GIS map location signal gathering and transmission equipment, it comprises: monitoring station, user's intelligent terminal and remote terminal;

Monitoring station data communication end connects remote terminal data communication end, and described remote terminal data communication end connects user's Intelligent terminal data transmission ends by wireless network;

Described monitoring station comprises data processor and data communication interface;

Data processor data transmission terminal connection data communication interface, connects remote terminal by data communication interface, according to the data that data processor sends, in the GIS map locating information of the real-time display monitoring website of remote terminal.

Described can at the signal gathering of GIS map location and transmission equipment by network, and preferably, described data processor comprises: the first resistance, second resistance, 3rd resistance, 4th resistance, 5th resistance, 6th resistance, 7th resistance, 8th resistance, 9th resistance, tenth resistance, 11 resistance, 12 resistance, 13 resistance, 14 resistance, 15 resistance, 16 resistance, 17 resistance, 18 resistance, 19 resistance, 20 resistance, 21 resistance, 22 resistance, 23 resistance, 24 resistance, 25 resistance, 26 resistance, 27 resistance, 28 resistance, first electric capacity, second electric capacity, 3rd electric capacity, 4th electric capacity, 5th electric capacity, 6th electric capacity, 7th electric capacity, 8th electric capacity, 9th electric capacity, tenth electric capacity, 11 electric capacity, 12 electric capacity, 13 electric capacity, 14 electric capacity, 15 electric capacity, 16 electric capacity, 17 electric capacity, 18 electric capacity, 19 electric capacity,

Described first resistance first end, second resistance first end, 3rd resistance first end, 4th resistance first end connection data processor power supply end, described first resistance second end, second resistance second end, 3rd resistance second end, 4th resistance second end connects power control terminal respectively, 3.3V power end connects the first electric capacity first end, described first electric capacity second end ground connection, described first electric capacity first end connects the second electric capacity first end, described second electric capacity second end ground connection, described first electric capacity first end and the second electric capacity first end also connection data processor 3.3V power end, described data processor voltage end connects the 3rd electric capacity, 4th electric capacity, first end after 5th Capacitance parallel connection, described 3rd electric capacity, 4th electric capacity, the second end ground connection after 5th Capacitance parallel connection, described data processor 3.3V power end also connects the 6th electric capacity first end, described 6th electric capacity second end ground connection, described data processor 3.3V power end also connects the 7th electric capacity first end, described 7th electric capacity second end ground connection, described data processor analog-to-digital conversion end connects the 5th resistance first end, described 5th resistance second end ground connection, described data processor analog-to-digital conversion end connects the 6th resistance first end, described 6th resistance second end ground connection, described data processor 3.3V power end also connects the 8th electric capacity first end, described 8th electric capacity second end ground connection, described 9th electric capacity is connected 3.3V power end and data processor 3.3V power end with first end after the tenth Capacitance parallel connection, second end ground connection after described 9th electric capacity and the tenth Capacitance parallel connection, first end ground connection after 7th resistance and the 8th resistor coupled in parallel, second end connection data processor input/output terminal respectively after described 7th resistance and the 8th resistor coupled in parallel, described 11 electric capacity first end ground connection, described 11 electric capacity second end connection data processor input/output terminal, described 9th resistance first end connecting sensor receiving terminal, described 9th resistance second end connects the 11 electric capacity second end, described tenth resistance first end connects external detection end, described tenth resistance second end connection data processor input/output terminal, described 12 electric capacity first end connects the tenth resistance second end, described 12 electric capacity second end ground connection, first end ground connection after described 13 electric capacity and the 14 Capacitance parallel connection, second end data processor 3.3V power end after described 13 electric capacity and the 14 Capacitance parallel connection, described 11 resistance first end ground connection, described 11 resistance second end connection data processor dynamic buffering end, described 12 resistance first end connects external control end, described 12 resistance second end connection data processor dynamic buffering end, described 13 resistance first end connects the 11 resistance first end, described 13 resistance second end connection data processor dynamic buffering end, first end ground connection after 15 electric capacity and the 16 Capacitance parallel connection, second end connection data processor 3.3V power end after described 15 electric capacity and the 16 Capacitance parallel connection, first end ground connection after described 14 resistance and the 15 resistor coupled in parallel, second end connection data processor dynamic buffering end after described 14 resistance and the 15 resistor coupled in parallel, first end ground connection after described 16 resistance and the 17 resistor coupled in parallel, second end connection data processor bi-directional data feedback end after described 16 resistance and the 17 resistor coupled in parallel, described 17 electric capacity first end ground connection, described 17 electric capacity second end connection data processor signal end, described 18 resistance first end ground connection, described 18 resistance second end connection data processor is biased feedback end, described 19 resistance, 20 resistance, first end ground connection after 21 resistance and the 22 resistor coupled in parallel, described 19 resistance, 20 resistance, second end connection data processor input/output terminal after 21 resistance and the 22 resistor coupled in parallel, 23 resistance first end connection data processor two-way difference data terminal, described 23 resistance second end connects external control end, 24 resistance first end connection data processor two-way difference data terminal, described 24 resistance second end connects external control end, described 25 resistance first end connection data processor network data management end, described 25 resistance second end ground connection, described 26 resistance first end connection data processor network data management end, described 26 resistance second end ground connection, described 18 electric capacity first end connection data processor voltage end, described 18 electric capacity second end ground connection, described 27 resistance first end connection data processor two-way difference data terminal, described 27 resistance second end connects external control end, described 28 resistance first end connection data processor two-way difference data terminal, described 28 resistance second end connects external control end, described 19 electric capacity first end connection data processor park mode power end, described 19 electric capacity second end ground connection.

Described can at the signal gathering of GIS map location and transmission equipment by network, preferably, described data communication interface comprises: the 29 resistance, 30 resistance, 31 resistance, 32 resistance, 33 resistance, 34 resistance, 35 resistance, 36 resistance, 37 resistance, 20 electric capacity, 21 electric capacity, 22 electric capacity, 23 electric capacity, 24 electric capacity, 25 electric capacity, 26 electric capacity, 27 electric capacity, 28 electric capacity, 29 electric capacity, 30 electric capacity,

Described 29 resistance first end connects 3.3V power end positive pole, described 29 resistance second end connection data input negative pole, described 30 resistance first end connects 3.3V power end positive pole, described 30 resistance second end connection data input positive pole, described 20 electric capacity first end connects 3.3V power end, described 20 electric capacity second end connects the 21 electric capacity first end and ground connection respectively, described 21 electric capacity second end connects the 30 resistance second end, described 22 electric capacity first end connects the 21 electric capacity first end, described 22 electric capacity second end connects the 29 resistance second end, described 31 resistance first end connects 3.3V power end negative pole, described 31 resistance second end connects low-level data end, described 32 resistance first end connects 3.3V power end negative pole, described 32 resistance second end connects high level data end, described 23 electric capacity first end connects the 32 resistance second end, described 23 electric capacity second end ground connection, described 24 electric capacity first end connects the 31 resistance second end, described 24 electric capacity second end ground connection, described 25 electric capacity is connected 3.3V power end positive pole with first end after the 26 Capacitance parallel connection, second end ground connection after described 25 electric capacity and the 26 Capacitance parallel connection, described data feedback signal end connects the 33 resistance first end, described 33 resistance second end interconnection network interface end, described data output signal end connects the 34 resistance first end, described 34 resistance second end interconnection network interface end, described 35 resistance first end connection data feedback end, described 35 resistance second end connects bus chip Signal transmissions end, described 36 resistance first end connection data output, described 36 resistance second end connects bus chip Signal transmissions end, described 27 electric capacity two ends are connected to bus chip first electric capacity both positive and negative polarity, described 28 electric capacity two ends are connected to bus chip second electric capacity both positive and negative polarity, described bus chip voltage end connects the 29 electric capacity first end, described 29 electric capacity second end connects positive polarity, described 30 electric capacity first end connects 3.3V power end, described 30 electric capacity minus earth, described 31 electric capacity first end connects voltage negative pole, described 31 electric capacity second end ground connection, AC/DC input connects the 37 resistance first end, described 37 resistance second end connection data coffret.

Described at the signal gathering of GIS map location and transmission equipment, preferably, can also comprise data reset cell by network;

Described data reset cell connection data processor reset end, for data processor is delayed machine state time reset.

Described can at the signal gathering of GIS map location and transmission equipment by network, and preferably, described data processor is TM4C129X.

Described can at the signal gathering of GIS map location and transmission equipment by network, and preferably, bus chip is MAX3232.

In sum, owing to have employed technique scheme, the beneficial effects of the utility model are:

Monitoring central station is combined with GIS map.Can at quick position in GIS map intuitively to terminal equipment, the state of real-time monitoring equipment and data, supervisor can according to the reason of the supplemental characteristic judgment device fault of the Real-Time Monitoring of equipment, by simple and practical operation, reach and grasp field apparatus operation conditions in time, particularly unusual condition, and rapid scheduling resource, the effect of taking measures.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the utility model overall circuit figure;

Fig. 2 is the utility model data processor single-sided conductive paths winding diagram;

Fig. 3 is the utility model data processor single-sided conductive paths winding diagram;

Fig. 4 is the utility model data processor single-sided conductive paths winding diagram;

Fig. 5 is the utility model data processor single-sided conductive paths winding diagram;

Fig. 6 is the utility model network port circuit schematic diagram;

Fig. 7 is the utility model data-interface schematic diagram;

Fig. 8 is the utility model external cabling mouth schematic diagram;

Fig. 9 is that the utility model resets end schematic diagram.

Embodiment

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " longitudinal direction ", " transverse direction ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, unless otherwise prescribed and limit, it should be noted that, term " installation ", " being connected ", " connection " should be interpreted broadly, such as, can be mechanical connection or electrical connection, also can be the connection of two element internals, can be directly be connected, also indirectly can be connected by intermediary, for the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.

Technical problem to be solved by this invention (goal of the invention)

1) utilize GIS map, the coordinate of mark terminal equipment, can accurately locate and search equipment

2) basic map can be realized freely to amplify, reduce, pull, according to attribute and the status poll of terminal equipment

3) real-time statistics terminal equipment from presence and alarm condition

Actualizing technology scheme route:

1) realize GIS map based on open map API to show and equipment location;

2) terminal unit status and data real-time update, clicking can the specific object of display terminal and parameter;

3) by Region dividing equipment.

Detailed embodiment:

First, quote open map, create map object, its initialization information is set, default coordinate, level of zoom etc. are set, then according to device definition information, loading equipemtn mark on map, and create click event in the markers, with the essential information of the Real-Time Monitoring value of the click pop-up device of customer in response and equipment.The data of region tree list in left side load according to the area data of the definition on central station, and user can the condition such as appointed area, equipment state, device location inquire about, in real-time statistics, then list the statistics under this condition.

This programme can provide good input/output interface, and can be other value-added services or activating business provides interface, such as mobile phone A PP.The program that the utility model uses is well known to those skilled in the art.

As shown in Figure 1, the utility model provide a kind of by network can GIS map location signal gathering and transmission equipment, it comprises: monitoring station, user's intelligent terminal and remote terminal; Connect remote terminal by N number of monitoring station, realize convergence and the transmission of real time data, N is positive integer.

Monitoring station data communication end connects remote terminal data communication end, and described remote terminal data communication end connects user's Intelligent terminal data transmission ends by wireless network;

Described monitoring station comprises data processor and data communication interface;

Data processor data transmission terminal connection data communication interface, connects remote terminal by data communication interface, according to the data that data processor sends, in the GIS map locating information of the real-time display monitoring website of remote terminal.

As shown in Figure 2-5, described can at the signal gathering of GIS map location and transmission equipment by network, and preferably, described data processor comprises: the first resistance, second resistance, 3rd resistance, 4th resistance, 5th resistance, 6th resistance, 7th resistance, 8th resistance, 9th resistance, tenth resistance, 11 resistance, 12 resistance, 13 resistance, 14 resistance, 15 resistance, 16 resistance, 17 resistance, 18 resistance, 19 resistance, 20 resistance, 21 resistance, 22 resistance, 23 resistance, 24 resistance, 25 resistance, 26 resistance, 27 resistance, 28 resistance, first electric capacity, second electric capacity, 3rd electric capacity, 4th electric capacity, 5th electric capacity, 6th electric capacity, 7th electric capacity, 8th electric capacity, 9th electric capacity, tenth electric capacity, 11 electric capacity, 12 electric capacity, 13 electric capacity, 14 electric capacity, 15 electric capacity, 16 electric capacity, 17 electric capacity, 18 electric capacity, 19 electric capacity,

Described first resistance first end, second resistance first end, 3rd resistance first end, 4th resistance first end connection data processor power supply end, described first resistance second end, second resistance second end, 3rd resistance second end, 4th resistance second end connects power control terminal respectively, 3.3V power end connects the first electric capacity first end, described first electric capacity second end ground connection, described first electric capacity first end connects the second electric capacity first end, described second electric capacity second end ground connection, described first electric capacity first end and the second electric capacity first end also connection data processor 3.3V power end, described data processor voltage end connects the 3rd electric capacity, 4th electric capacity, first end after 5th Capacitance parallel connection, described 3rd electric capacity, 4th electric capacity, the second end ground connection after 5th Capacitance parallel connection, described data processor 3.3V power end also connects the 6th electric capacity first end, described 6th electric capacity second end ground connection, described data processor 3.3V power end also connects the 7th electric capacity first end, described 7th electric capacity second end ground connection, described data processor analog-to-digital conversion end connects the 5th resistance first end, described 5th resistance second end ground connection, described data processor analog-to-digital conversion end connects the 6th resistance first end, described 6th resistance second end ground connection, described data processor 3.3V power end also connects the 8th electric capacity first end, described 8th electric capacity second end ground connection, described 9th electric capacity is connected 3.3V power end and data processor 3.3V power end with first end after the tenth Capacitance parallel connection, second end ground connection after described 9th electric capacity and the tenth Capacitance parallel connection, first end ground connection after 7th resistance and the 8th resistor coupled in parallel, second end connection data processor input/output terminal respectively after described 7th resistance and the 8th resistor coupled in parallel, described 11 electric capacity first end ground connection, described 11 electric capacity second end connection data processor input/output terminal, described 9th resistance first end connecting sensor receiving terminal, described 9th resistance second end connects the 11 electric capacity second end, described tenth resistance first end connects external detection end, described tenth resistance second end connection data processor input/output terminal, described 12 electric capacity first end connects the tenth resistance second end, described 12 electric capacity second end ground connection, first end ground connection after described 13 electric capacity and the 14 Capacitance parallel connection, second end data processor 3.3V power end after described 13 electric capacity and the 14 Capacitance parallel connection, described 11 resistance first end ground connection, described 11 resistance second end connection data processor dynamic buffering end, described 12 resistance first end connects external control end, described 12 resistance second end connection data processor dynamic buffering end, described 13 resistance first end connects the 11 resistance first end, described 13 resistance second end connection data processor dynamic buffering end, first end ground connection after 15 electric capacity and the 16 Capacitance parallel connection, second end connection data processor 3.3V power end after described 15 electric capacity and the 16 Capacitance parallel connection, first end ground connection after described 14 resistance and the 15 resistor coupled in parallel, second end connection data processor dynamic buffering end after described 14 resistance and the 15 resistor coupled in parallel, first end ground connection after described 16 resistance and the 17 resistor coupled in parallel, second end connection data processor bi-directional data feedback end after described 16 resistance and the 17 resistor coupled in parallel, described 17 electric capacity first end ground connection, described 17 electric capacity second end connection data processor signal end, described 18 resistance first end ground connection, described 18 resistance second end connection data processor is biased feedback end, described 19 resistance, 20 resistance, first end ground connection after 21 resistance and the 22 resistor coupled in parallel, described 19 resistance, 20 resistance, second end connection data processor input/output terminal after 21 resistance and the 22 resistor coupled in parallel, 23 resistance first end connection data processor two-way difference data terminal, described 23 resistance second end connects external control end, 24 resistance first end connection data processor two-way difference data terminal, described 24 resistance second end connects external control end, described 25 resistance first end connection data processor network data management end, described 25 resistance second end ground connection, described 26 resistance first end connection data processor network data management end, described 26 resistance second end ground connection, described 18 electric capacity first end connection data processor voltage end, described 18 electric capacity second end ground connection, described 27 resistance first end connection data processor two-way difference data terminal, described 27 resistance second end connects external control end, described 28 resistance first end connection data processor two-way difference data terminal, described 28 resistance second end connects external control end, described 19 electric capacity first end connection data processor park mode power end, described 19 electric capacity second end ground connection.

As shown in Figure 6, described can at the signal gathering of GIS map location and transmission equipment by network, preferably, described data communication interface comprises: the 29 resistance, 30 resistance, 31 resistance, 32 resistance, 33 resistance, 34 resistance, 35 resistance, 36 resistance, 37 resistance, 20 electric capacity, 21 electric capacity, 22 electric capacity, 23 electric capacity, 24 electric capacity, 25 electric capacity, 26 electric capacity, 27 electric capacity, 28 electric capacity, 29 electric capacity, 30 electric capacity,

Described 29 resistance first end connects 3.3V power end positive pole, described 29 resistance second end connection data input negative pole, described 30 resistance first end connects 3.3V power end positive pole, described 30 resistance second end connection data input positive pole, described 20 electric capacity first end connects 3.3V power end, described 20 electric capacity second end connects the 21 electric capacity first end and ground connection respectively, described 21 electric capacity second end connects the 30 resistance second end, described 22 electric capacity first end connects the 21 electric capacity first end, described 22 electric capacity second end connects the 29 resistance second end, described 31 resistance first end connects 3.3V power end negative pole, described 31 resistance second end connects low-level data end, described 32 resistance first end connects 3.3V power end negative pole, described 32 resistance second end connects high level data end, described 23 electric capacity first end connects the 32 resistance second end, described 23 electric capacity second end ground connection, described 24 electric capacity first end connects the 31 resistance second end, described 24 electric capacity second end ground connection, described 25 electric capacity is connected 3.3V power end positive pole with first end after the 26 Capacitance parallel connection, second end ground connection after described 25 electric capacity and the 26 Capacitance parallel connection, described data feedback signal end connects the 33 resistance first end, described 33 resistance second end interconnection network interface end, described data output signal end connects the 34 resistance first end, described 34 resistance second end interconnection network interface end, described 35 resistance first end connection data feedback end, described 35 resistance second end connects bus chip Signal transmissions end, described 36 resistance first end connection data output, described 36 resistance second end connects bus chip Signal transmissions end, described 27 electric capacity two ends are connected to bus chip first electric capacity both positive and negative polarity, described 28 electric capacity two ends are connected to bus chip second electric capacity both positive and negative polarity, described bus chip voltage end connects the 29 electric capacity first end, described 29 electric capacity second end connects positive polarity, described 30 electric capacity first end connects 3.3V power end, described 30 electric capacity minus earth, described 31 electric capacity first end connects voltage negative pole, described 31 electric capacity second end ground connection, AC/DC input connects the 37 resistance first end, described 37 resistance second end connection data coffret.

Fig. 7 is the utility model data-interface schematic diagram;

Fig. 8 is the utility model external cabling mouth schematic diagram;

Fig. 9 is that the utility model resets end schematic diagram.

Described at the signal gathering of GIS map location and transmission equipment, preferably, can also comprise data reset cell by network;

Described data reset cell connection data processor reset end, for data processor is delayed machine state time reset.

Described can at the signal gathering of GIS map location and transmission equipment by network, and preferably, described data processor is TM4C129X.

Described can at the signal gathering of GIS map location and transmission equipment by network, and preferably, bus chip is MAX3232.

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (6)

1. at the signal gathering of GIS map location and a transmission equipment, can be it is characterized in that, comprising: monitoring station, user's intelligent terminal and remote terminal by network;

Monitoring station data communication end connects remote terminal data communication end, and described remote terminal data communication end connects user's Intelligent terminal data transmission ends by wireless network;

Described monitoring station comprises data processor and data communication interface;

Data processor data transmission terminal connection data communication interface, connects remote terminal by data communication interface, according to the data that data processor sends, in the GIS map locating information of the real-time display monitoring website of remote terminal.

2. the network that passes through according to claim 1 can at the signal gathering of GIS map location and transmission equipment, and it is characterized in that, described data processor comprises: the first resistance, second resistance, 3rd resistance, 4th resistance, 5th resistance, 6th resistance, 7th resistance, 8th resistance, 9th resistance, tenth resistance, 11 resistance, 12 resistance, 13 resistance, 14 resistance, 15 resistance, 16 resistance, 17 resistance, 18 resistance, 19 resistance, 20 resistance, 21 resistance, 22 resistance, 23 resistance, 24 resistance, 25 resistance, 26 resistance, 27 resistance, 28 resistance, first electric capacity, second electric capacity, 3rd electric capacity, 4th electric capacity, 5th electric capacity, 6th electric capacity, 7th electric capacity, 8th electric capacity, 9th electric capacity, tenth electric capacity, 11 electric capacity, 12 electric capacity, 13 electric capacity, 14 electric capacity, 15 electric capacity, 16 electric capacity, 17 electric capacity, 18 electric capacity, 19 electric capacity,

Described first resistance first end, second resistance first end, 3rd resistance first end, 4th resistance first end connection data processor power supply end, described first resistance second end, second resistance second end, 3rd resistance second end, 4th resistance second end connects power control terminal respectively, 3.3V power end connects the first electric capacity first end, described first electric capacity second end ground connection, described first electric capacity first end connects the second electric capacity first end, described second electric capacity second end ground connection, described first electric capacity first end and the second electric capacity first end also connection data processor 3.3V power end, described data processor voltage end connects the 3rd electric capacity, 4th electric capacity, first end after 5th Capacitance parallel connection, described 3rd electric capacity, 4th electric capacity, the second end ground connection after 5th Capacitance parallel connection, described data processor 3.3V power end also connects the 6th electric capacity first end, described 6th electric capacity second end ground connection, described data processor 3.3V power end also connects the 7th electric capacity first end, described 7th electric capacity second end ground connection, described data processor analog-to-digital conversion end connects the 5th resistance first end, described 5th resistance second end ground connection, described data processor analog-to-digital conversion end connects the 6th resistance first end, described 6th resistance second end ground connection, described data processor 3.3V power end also connects the 8th electric capacity first end, described 8th electric capacity second end ground connection, described 9th electric capacity is connected 3.3V power end and data processor 3.3V power end with first end after the tenth Capacitance parallel connection, second end ground connection after described 9th electric capacity and the tenth Capacitance parallel connection, first end ground connection after 7th resistance and the 8th resistor coupled in parallel, second end connection data processor input/output terminal respectively after described 7th resistance and the 8th resistor coupled in parallel, described 11 electric capacity first end ground connection, described 11 electric capacity second end connection data processor input/output terminal, described 9th resistance first end connecting sensor receiving terminal, described 9th resistance second end connects the 11 electric capacity second end, described tenth resistance first end connects external detection end, described tenth resistance second end connection data processor input/output terminal, described 12 electric capacity first end connects the tenth resistance second end, described 12 electric capacity second end ground connection, first end ground connection after described 13 electric capacity and the 14 Capacitance parallel connection, second end data processor 3.3V power end after described 13 electric capacity and the 14 Capacitance parallel connection, described 11 resistance first end ground connection, described 11 resistance second end connection data processor dynamic buffering end, described 12 resistance first end connects external control end, described 12 resistance second end connection data processor dynamic buffering end, described 13 resistance first end connects the 11 resistance first end, described 13 resistance second end connection data processor dynamic buffering end, first end ground connection after 15 electric capacity and the 16 Capacitance parallel connection, second end connection data processor 3.3V power end after described 15 electric capacity and the 16 Capacitance parallel connection, first end ground connection after described 14 resistance and the 15 resistor coupled in parallel, second end connection data processor dynamic buffering end after described 14 resistance and the 15 resistor coupled in parallel, first end ground connection after described 16 resistance and the 17 resistor coupled in parallel, second end connection data processor bi-directional data feedback end after described 16 resistance and the 17 resistor coupled in parallel, described 17 electric capacity first end ground connection, described 17 electric capacity second end connection data processor signal end, described 18 resistance first end ground connection, described 18 resistance second end connection data processor is biased feedback end, described 19 resistance, 20 resistance, first end ground connection after 21 resistance and the 22 resistor coupled in parallel, described 19 resistance, 20 resistance, second end connection data processor input/output terminal after 21 resistance and the 22 resistor coupled in parallel, 23 resistance first end connection data processor two-way difference data terminal, described 23 resistance second end connects external control end, 24 resistance first end connection data processor two-way difference data terminal, described 24 resistance second end connects external control end, described 25 resistance first end connection data processor network data management end, described 25 resistance second end ground connection, described 26 resistance first end connection data processor network data management end, described 26 resistance second end ground connection, described 18 electric capacity first end connection data processor voltage end, described 18 electric capacity second end ground connection, described 27 resistance first end connection data processor two-way difference data terminal, described 27 resistance second end connects external control end, described 28 resistance first end connection data processor two-way difference data terminal, described 28 resistance second end connects external control end, described 19 electric capacity first end connection data processor park mode power end, described 19 electric capacity second end ground connection.

3. the network that passes through according to claim 1 can at the signal gathering of GIS map location and transmission equipment, it is characterized in that, described data communication interface comprises: the 29 resistance, 30 resistance, 31 resistance, 32 resistance, 33 resistance, 34 resistance, 35 resistance, 36 resistance, 37 resistance, 20 electric capacity, 21 electric capacity, 22 electric capacity, 23 electric capacity, 24 electric capacity, 25 electric capacity, 26 electric capacity, 27 electric capacity, 28 electric capacity, 29 electric capacity, 30 electric capacity,

Described 29 resistance first end connects 3.3V power end positive pole, described 29 resistance second end connection data input negative pole, described 30 resistance first end connects 3.3V power end positive pole, described 30 resistance second end connection data input positive pole, described 20 electric capacity first end connects 3.3V power end, described 20 electric capacity second end connects the 21 electric capacity first end and ground connection respectively, described 21 electric capacity second end connects the 30 resistance second end, described 22 electric capacity first end connects the 21 electric capacity first end, described 22 electric capacity second end connects the 29 resistance second end, described 31 resistance first end connects 3.3V power end negative pole, described 31 resistance second end connects low-level data end, described 32 resistance first end connects 3.3V power end negative pole, described 32 resistance second end connects high level data end, described 23 electric capacity first end connects the 32 resistance second end, described 23 electric capacity second end ground connection, described 24 electric capacity first end connects the 31 resistance second end, described 24 electric capacity second end ground connection, described 25 electric capacity is connected 3.3V power end positive pole with first end after the 26 Capacitance parallel connection, second end ground connection after described 25 electric capacity and the 26 Capacitance parallel connection, described data feedback signal end connects the 33 resistance first end, described 33 resistance second end interconnection network interface end, described data output signal end connects the 34 resistance first end, described 34 resistance second end interconnection network interface end, described 35 resistance first end connection data feedback end, described 35 resistance second end connects bus chip Signal transmissions end, described 36 resistance first end connection data output, described 36 resistance second end connects bus chip Signal transmissions end, described 27 electric capacity two ends are connected to bus chip first electric capacity both positive and negative polarity, described 28 electric capacity two ends are connected to bus chip second electric capacity both positive and negative polarity, described bus chip voltage end connects the 29 electric capacity first end, described 29 electric capacity second end connects positive polarity, described 30 electric capacity first end connects 3.3V power end, described 30 electric capacity minus earth, described 31 electric capacity first end connects voltage negative pole, described 31 electric capacity second end ground connection, AC/DC input connects the 37 resistance first end, 37 resistance second end connection data coffret.

4. the network that passes through according to claim 1 at the signal gathering of GIS map location and transmission equipment, can is characterized in that, also comprise data reset cell;

Described data supplement unit connection data processor reset end with money, for data processor is delayed machine state time reset.

5. the network that passes through according to claim 1 can at the signal gathering of GIS map location and transmission equipment, and it is characterized in that, described data processor is TM4C129X.

6. the network that passes through according to claim 3 can at the signal gathering of GIS map location and transmission equipment, and it is characterized in that, bus chip is MAX3232.