CN104918370A - Intelligent illumination and information interactive system - Google Patents

Abstract

The invention relates to the field of control technologies, in particular to an intelligent illumination and information interactive system. Intelligent illumination terminals and information service terminals are integrated or split type terminal systems, a central server comprises an information resource utilization and sharing platform and background infrastructures, the intelligent illumination terminals or intelligent information service terminals serve as a plurality of nodes and are interconnected through a wireless controller, the wireless controller is connected to the central server, and the wireless controller comprises a general processor, a sensing and induction module, a dimming module, a fault alarm module, an anti-theft module, a data monitoring module and a wireless signal transmission module. The intelligent illumination and information interactive system realizes remote centralized control and management of street lamps through the application of the advanced, efficient and reliable power line carrier communication technology and the wireless GPRS/CDMA communication technology, has the functions of automatically adjusting brightness according to traffic flow, remote lighting control, automatic fault alarm, lamp cable theft prevention, remote meter reading and the like, can significantly save power resources, improves public lighting management level, and saves maintenance cost.

Description

A kind of intelligent lighting and information interaction system

[technical field]

The present invention relates to control technology field, specifically a kind of intelligent lighting and information interaction system.

[background technology]

As everyone knows, Intelligent Community, intelligent rural area, intelligent new city, Itellectualized uptown or scenic spot and landing of intelligent commercial circle lack suitable terminal.The terminal equipment that high and terminal use can very conveniently touch less than coverage rate or place are arranged, and there is current terminal and the problem such as generally how to place.Current intelligent lighting only launches around illumination itself, fully use illumination as the high basic common structure of coverage rate, organically do not integrate with Intelligent Community, intelligent rural area, intelligent new city, Itellectualized uptown or scenic spot etc. from the comprehensive angle of intelligent city.Intelligent lighting of the prior art regulates as can only be realized light by the light and shade of the colour of sky or manual control, and cannot be controlled by the vehicle flowrate in scope or other parameters, and coverage rate is also wide not, intelligent not, also bring the waste of the energy simultaneously.

The problem such as therefore also also exist in current intelligent process that use is convenient not, the inadequate environmental protection of system, intelligence degree are inadequate, cannot meet the demand of current many Intelligent Communities, intelligent rural area, intelligent new city, Itellectualized uptown or scenic spot and intelligent commercial circle.

[summary of the invention]

Object of the present invention is exactly arrange unreasonable deficiency such as grade and defect to solve intelligent terminal in prior art, a kind of structure is provided, method is novel, safe and reliable intelligent lighting and information interaction system, comprise user, several intelligent lighting terminals, several intelligent information service terminals, central server, administrative staff are by client logs central server and manage intelligent lighting terminal or intelligent information service terminal and control, it is characterized in that described intelligent lighting terminal and intelligent information service terminal are integral type terminal system or respective independently split type terminal system, described central server comprises information resources utilization shared platform and backend infrastructure, several intelligent lighting terminals or intelligent information service terminal are as several nodes, several nodes converge and are connected to each other by some wireless controllers, several wireless controllers are connected to central server, described wireless controller comprises total processor, sensing and induction module, light-adjusting module, fault alarm module, anti-theft module, data monitoring module, wireless signal transmission module, power management module.

Described intelligent lighting terminal and intelligent information service terminal are integral type structure, and common formation intelligent lighting and information interactive terminal, described intelligent lighting is connected central server with information interactive terminal by high-speed wideband wireless network.

Described intelligent lighting terminal and intelligent information service terminal are independent separately and the split type terminal system be connected to each other, and described intelligent lighting terminal is connected central server with intelligent information service terminal respectively by high-speed wideband wireless network.

Described intelligent information terminal comprises multimedia self-help terminal administration module, and multimedia self-help terminal administration module connects trade company's membership service module, information inquiry module, authentication module, Communication processing module, secure processing module respectively.

Described intelligent lighting terminal comprises lamp stand and LED light source, described lamp stand inside top is equipped with LED light source and video monitoring camera, the microcomputer station of carrying out information interaction with central server is provided with outside lamp stand, lamp pole body is embedded with emergent broadcast, advertisement screen, transducer, card reader interface, alarm button, microphone, mutual screen and wireless controller, described LED light source comprises red LED light source, green LED light source, blue led light source, White LED light source, described wireless controller is integrated with total processing module, sensing and induction module, light-adjusting module, fault alarm module, anti-theft module, data monitoring module, light detection module, time block, wireless signal transmission module and power management module, described sensing and induction module comprise light detection module, temperature sensing module, humidity sensor module, Gensor numeral 3-axis acceleration sensing module, described wireless signal transmission module comprises GPRS communication module and GPS module.

Described total processing module is controlled by chip U7, No. 1 pin CPU_GPS_PWR_EN end of chip U7 is connected to No. 3 ports of chip U10, No. 2 pin CPU_GPS_SPI_nSS of chip U7 hold, No. 13 pin CPU_GPS_SPI_SCK hold, No. 26 pin CPU_GPS_SPI_MISO hold, No. 38 pin CPU_GPS_SPI_MOSI ends are connected to 2 of chip U12 respectively, 16, 15, No. 14 pins, No. 3 pins of chip U7 are connected to No. 2 pins of chip U5, and ground connection after the bi-directional voltage stabilizing diode in parallel D13 of tap one end, high level VDD285D_CPU is met after No. 4 pin contact resistance R34 of chip U7, simultaneously by jumper cap JP2 ground connection, No. 6 pin XTALIN of chip U7 hold, crystal oscillator Y1 in parallel between No. 7 pin XTALOUT hold, crystal oscillator Y1 two ends connect electric capacity C22 respectively, C23, electric capacity C22, the other end ground connection composition crystal oscillator loop of C23, No. 8 pins of chip U7 meet high level voltage VDD285D_CPU, No. 9 pin GPS_PWREN_nSW ends are connected to No. 6 pins of chip U10, No. 10 pin SFLASH_SPI_nCS of chip U7 hold, No. 12 pin SFLASH_SPI_nWP hold, No. 27 pin SFLASH_SPI_MISO hold, No. 28 pin SFLASH_SPI_MOSI hold, No. 31 pin SFLASH_SPI_SCK hold No. 1 that is connected to non-volatile external memory chips U9 respectively, No. 3, No. 2, No. 5, No. 6 pins, the SPI communication bus of composition and chip U7, No. 8 pins of U9 meet high level voltage VDD285D_CPU, shunt capacitance C29 simultaneously, ground connection after C30, high level VDD285D_CPU is met after No. 7 pin contact resistance R41 of chip U9, the negative pole of No. 11 pin connecting luminous diode D17 of chip U7, the positive pole of light-emitting diode D17 is connected to high level voltage VDD285D_CPU by resistance R30, No. 14 pins of chip U7 are connected to voltage stabilizing didoe D8, No. 15 pin GSEN_SCL of chip U 7 hold, No. 16 pin GSEN_SDA hold No. 12 that are connected to Gensor numeral 3-axis acceleration sensing module chips U8 respectively, No. 2 pins, No. 17 pin CPU_SHDN# ends of chip U7 are connected to voltage stabilizing didoe D10, No. 18 pin SOS_KEY_ON_LED hold No. 2 pins connecting connector JP5, power vd D285D_CPU is connected to after No. 1 pin contact resistance R40 of connector JP5, No. 19 pin GPRS_nRESET ends of chip U7 are connected to No. 22 pins of GPRS communication module chips U11 after resistance R51, No. 19 of chip U7, No. 20 pins separately draw CAN_TXD end, CAN_RXD end is connected to No. 2 and No. 1 pin of connector JP4 respectively, compositing chip U7 and CAN communication, No. 20 pin GPRS_BURST_nEN of U7 hold simultaneously, No. 21 pin GPRS_PWR_EN ends are connected to No. 2 pins and No. 12 pins of power management module chips U1 respectively, No. 22 pin SOS_KEY_ON terminations of chip U7 receive No. 2 pin output signals from jumper cap JP1, No. 23 pin GPRS_UART_CTS of chip U7 hold, No. 45 pin GPRS_UART_RTS ends are connected to No. 14 pins of GPRS communication module chips U11 respectively, No. 13 pins, form the UART half duplex communication between total processing module and GPRS communication module, No. 24 pin GPRS_PWRON of chip U7 hold the resistance R52 be connected in GPRS communication module, No. 32 pin RTC_ALARM_INT of chip U7 hold No. 4 ports connecting comparator U16, No. 34 pin VBAT_NTC_EXT ends of chip U7 are connected to No. 3 pins of J1, ground connection after No. 34 pin shunt capacitance C20 simultaneously, high level voltage VIN_EXT is met after No. 35 pin contact resistance R35 of chip U7, ground connection after shunt capacitance C21 and resistance R38 composition RC filter circuit simultaneously, No. 36 pin GPRS_DTR_IN ends of chip U7 are connected to No. 12 pins of GPRS communication module chips U11, No. 37 pin GPRS_PC_UART_nSW of chip U7 hold and No. 46 pin CPU_UART_RXD hold No. 6 and No. 4 pins being connected to chip U6 respectively, No. 1 pin PC_UART_RXD of chip U6 holds and connects JH1 as USB interface, No. 5 pins connect high level voltage VDD285D_CPU, ground connection after shunt capacitance C19 simultaneously, No. 3 pin GPRS_UART_RXD terminations of U6 chip receive the UART communication signal of No. 16 pins outputs from chip U11, No. 40 pins of chip U7 are by meeting high level voltage VDD285D_CPU after resistance R28, No. 43 pins of chip U7 receive the mains switch exported through interrupteur SW 1, No. 44 pins meet high level voltage VDD285A_CPU, No. 47 pins are divided into PC_UART_TXD to hold and GPRS_UART_TXD end, PC_UART_TXD end is connected to No. 3 pins of JH1, No. 48 pin GPRS_R1_OUT hold output signal to be connected to No. 10 pins of chip U11.

Described power management module is sensing and induction module, light-adjusting module, fault alarm module, anti-theft module, data monitoring module, time block, wireless signal transmission module provides power supply, No. 43 pin PWRKEY_ON that 1.8-5.5V high level voltage VIN_EXT is connected to U7 chip after interrupteur SW 1 hold, and draw one end by voltage stabilizing didoe D5, ground connection after resistance R20, PWRKEY_ON holds bi-directional voltage stabilizing diode D11 in parallel, simultaneously at bi-directional voltage stabilizing diode D11 two ends parallel resistance R19, No. 1 end of JP1 jumper cap connects high level voltage VIN_EXT, No. 21 pin SOS_KEY_ON that No. 2 ends are connected to U7 chip hold, bi-directional voltage stabilizing diode D7 in parallel is held at SOS_KEY_ON, simultaneously at bi-directional voltage stabilizing diode D7 two ends parallel resistance R15, ground connection after No. 2 end another extraction one lines connection voltage stabilizing didoe D6 and resistance R20 of JP1 jumper cap, No. 14 pin GSEN_INT of chip U7 hold, No. 32 pin RTC_ALARM_INT hold, No. 17 pin CPU_SHDN# hold and connect voltage stabilizing didoe D8 respectively, D9, to connect after D10 R20 ground connection, No. 1 pin CPU_PWR_EN that another extraction one end exports chip U4 to holds, No. 6 pins of chip U4 are connected to after the LC filter circuit that No. 3 pins of chip U4 consist of inductance L 3 and electric capacity C17, electric capacity C17 two ends parallel resistance R22, resistance R22 draws ground connection after one section of contact resistance R25, inductance L 3 is drawn one end and is connected high level voltage VDD285D_CPU, ground connection after extraction one end connection electric capacity C18 simultaneously, No. 4 pins of chip U4 connect high level voltage VIN_EXT, ground connection after another tap one end connection electric capacity C15, No. 4 ends of chip U2 connect 1.6-20V high level voltage VIN_EXT, and ground connection after tap one end connection electric capacity C11, contact resistance R17 between No. 4 ports of chip U2 and No. 5 ports, high level voltage VDD285D_GSEN is connected to after No. 2 of chip U2 and No. 3 pins merge, and No. 1 port of tap one end contact resistance R16 to chip U2, after connecting electric capacity C12, ground connection carries out filtering, ground connection after resistance R16 contact resistance R18 simultaneously, No. 4 pins of chip U3 meet 2.5-5.5V high level voltage VIN_EXT, ground connection after another tap one end connection electric capacity C13, No. 1 pin of chip U3 receives No. 4 pin GPS_PWR_EN end signals from chip U10, and ground connection after extracting one end contact resistance R23 out, No. 6 pins of chip U3 are connected to after the LC filter circuit that No. 3 pins of chip U3 consist of inductance L 2 and electric capacity C14, electric capacity C14 two ends parallel resistance R21, resistance R21 draws ground connection after one section of contact resistance R24, inductance L 2 is drawn one end and is connected high level voltage VDD285D_GPS, ground connection after extraction one end connection electric capacity C16 simultaneously, No. 10 of chip U1, No. 11 pins are connected in parallel to 1.8-5.5V high level voltage VIN_EXT, VIN_EXT draws one end and connects ground connection after electric capacity C3, the GPRS_PWR_EN signal exported from No. 21 pins of chip U7 is by being connected to No. 12 pins of chip U1 after resistance R32, contact resistance R7 between No. 12 pins of chip U1 and No. 11 pins, resistance R7 draws one end and connects ground connection after electric capacity C8, ground connection after No. 2 pin contact resistance R10 of chip U1, ground connection after No. 4 pins connection voltage stabilizing didoe D1 of chip U1, voltage stabilizing didoe D1 two ends shunt capacitance C1 and resistance R2, No. 4 pins of chip U1 are connected voltage stabilizing didoe D4 with between No. 11 pins, No. 4 pins are connected inductance L 1 with between No. 7 pins simultaneously, No. 7 pins are separately drawn one end and are connected voltage stabilizing didoe D2 to 9 pin, voltage stabilizing didoe D2 two ends parallel resistance R3 and electric capacity C2, 8 of chip U1, high level voltage VDD38D_GPRS is connected after No. 9 pins merge, and after extracting one end contact resistance R8 out, be connected to No. 13 pins of chip U1, resistance R8 two ends parallel resistance R6 and electric capacity C4, contact resistance R11 ground connection is merged with No. 13 pins after No. 14 pins connection electric capacity C9 of chip U1, electric capacity C9 two ends parallel resistance R9 and electric capacity C6, ground connection after No. 2 pin contact resistance R12 of chip U1, resistance R12 two ends shunt capacitance C10, resistance R12 separately draws one end contact resistance R13 and meets high level voltage VIN_EXT, simultaneously through the GPRS_BRUST_nEN signal of resistance R14 receiving chip U7 output.

Described wireless signal transmission module comprises GPRS communication module and GPS module, No. 2 pins of GPRS communication module chips U11 meet high level V_BCKP, No. 10 of chip U11, No. 13, No. 14 pins connect No. 48 pins of chip U7 respectively, No. 45 pins, No. 23 pins, No. 12 pins of chip U11 connect No. 36 pins of chip U7, simultaneously by resistance R58 ground connection, No. 15 pin GPRS_UART_TXD of chip U11 hold, No. 16 pin GPRS_UART_RXD hold No. 3 pin compositions of No. 47 pins and the chip U6 connecting chip U7 respectively and the UART communication bus of master chip, high level voltage V_BCKP is met after No. 19 pin connecting resistance R50 of chip U11, extract the collector electrode of one end connecting triode Q2 out simultaneously, the grounded emitter of triode Q2, No. 24 pin GPRS_PWRON that the base stage of triode Q2 connects chip U7 by resistance R52 holds, while the base stage of triode Q2 and emitter between parallel resistance R55, No. 20 pins of chip U11 are connected to the base stage of triode Q3 by resistance R54, simultaneously parallel resistance R57 between the base stage of triode Q3 and emitter, the collector electrode connecting luminous diode D23 negative pole of triode Q3, high level voltage VDD285D_GPRS is met after light-emitting diode D23 positive pole contact resistance R49, No. 21 of chip U11, No. 22 pins connect No. 1 and No. 6 pins of chip U 10, No. 23, No. 24, No. 30, No. 31 pins connect No. 20 of chip U12 respectively, No. 4, No. 19, No. 18 pins, No. 32 pin SIM_CLK of chip U11 hold, No. 33 pin SIM_DATA hold, No. 34 pin SIM_RST hold shunt regulator diode D20 respectively, D22, No. 3 of J4 are connected to after D21, No. 6, No. 2 pins are as sim card slot input signal end, No. 1 pin of J4 meets high level voltage SIM_VDD, bi-directional voltage stabilizing diode D19 in parallel simultaneously, electric capacity C36 and C37, No. 1 pin GPRS_ANT2 that No. 47 pins of chip U11 are connected to J3 by resistance R73 and R48 holds, No. 2 pin contact resistance R72 of J3, after No. 47 pins of chip U11 draw one end connection electric capacity C49 simultaneously, ground connection and resistance R73 form single order RC filtering, after the resistance R73 other end draws one end connection electric capacity C35, ground connection and resistance R48 form Order RC filtering, the resistance R48 other end is extracted a line out and is connected ground connection after electric capacity C34, No. 50 pins of chip U11 connect high level voltage VDD38D_GPRS, simultaneously by ground connection after electric capacity C41, C40, C39, C38, No. 2 pin CPU_GPS_SP1_nSS of GPS module chips U12 hold, No. 14 pin CPU_GPS_SPI_MOSI hold, No. 15 pin CPU_GPS_SPI_MISO hold, No. 16 pin CPU_GPS_SPI_SCK hold No. 2 that connect chip U7 respectively, No. 38, No. 26, the SPI communication bus of No. 13 pin compositions and master chip, No. 4 pins of chip U12 connect No. 23 pins of chip U11, No. 8 of chip U12, high level VDD275D_LNA is met by magnetic bead FB3 after No. 9 pin parallel connections, No. 4 pin OUT of No. 11 pins connection filter U18 of the U12 of chip hold, No. 1 pin IN of filter U18 holds No. 5 pin OUT connecting amplifier U17 to hold, as control signal input port, No. 1 pin of amplifier U17 connects VDD275D_LNA, ground connection after connection electric capacity C52 simultaneously, high level voltage VDD275D_LNA is met after No. 4 pin contact resistance R75 of amplifier U17, No. 6 pins connect VDD275D_LNA, and ground connection after tap one end connection electric capacity C26, No. 3 pins of U17 connect No. 4 pin OUT ports of filter U14 by inductance L 5, No. 1 pin of filter U14 connects J5 by electric capacity C54, and ground connection after tap one end connection electric capacity C50, J5 is then by bi-directional voltage stabilizing diode D5 ground connection, No. 31, No. 30 pins that No. 18 pin GPRS_GPS_SDA hold, No. 19 pin GPRS_GPS_SCL connect chip U11 respectively of chip U12, No. 23 pin GPS_DATA_READY of No. 20 pins connection chip U11 of chip U12 hold, No. 22 pins of chip U12 meet high level VDD285D_GPS_VBCKP, ground connection after extraction one end connection electric capacity C45 simultaneously, No. 23 pins of chip U12 connect high level voltage VDD285D_GPS, ground connection after extraction one end connection electric capacity C24 simultaneously, electric capacity C24 two ends C44 in parallel.

Light sensor is established in described light detection module, regulated the brightness of LED street lamp switch and screen by light-adjusting module according to light intensity, use tabilized current power supply, PWM exports after light-coupled isolation, the RC low pass filter on 2 ~ 3 rank is passed through at the other end of optocoupler, after being filtered into direct current, the follower amplifier of being powered by 10V is exported, driving.

Described total processor for receiving sensing and induction module, information that light-adjusting module, fault alarm module, anti-theft module, data monitoring module send be sent to information resources utilization shared platform by wireless signal transmission module, control total processor by administrative staff and/or backend infrastructure by wireless signal transmission module again, control signal is transferred to respectively light-adjusting module, fault alarm module, anti-theft module, data monitoring module.

Described sensing and induction module are for gathering illumination intensity information, information of vehicle flowrate; Described light-adjusting module is for the control signal that accepts total processor and send and transfer to intelligent lighting terminal, thus regulating illumination intensity; Described fault alarm module is for gathering alarm signal and transferring to total processor; Described anti-theft module for accepting the abnormal signal near light fixture cable, and feeds back to total processor; Described data monitoring module also arranges for the data accepting to be sent by node and feeds back to total processor, thus realizes remote transmission data function.

The present invention passes through application of advanced, efficiently, reliable power-line carrier communication and wireless GPRS/cdma communication technology etc., realize the long-distance centralized control to street lamp and management, have according to vehicle flowrate automatic regulating lightness, remote illumination controls, fault initiative alarming, light fixture cable theft prevention, the functions such as remote meter reading, significantly can save electric power resource, promote public illumination managerial skills, save maintenance cost, and solve the intelligent terminal problem of landing by the position distribution attribute of street lamp, improve resource utilization, can be in conjunction with information display light source by Novel LED street lamp illumination, the design that also can separate, improve citizen to the attention rate of intelligent terminal, intelligent lighting combines with the underlying transport network of intelligent city, improves the utilance of Internet resources, LED street lamp is integrated with the communal facility modules such as illumination, monitoring, electronic display, advertising lamp box, electronic ticket taking machine, newpapers and periodicals hurdle, and supports that USB flash disk inserts, MP3 broadcasting+power amplifier function, is applicable to different communities, commercial circle, industrial zone and municipal requirement.

[accompanying drawing explanation]

Fig. 1 is the connection diagram of intelligent lighting in the embodiment of the present invention and information interactive terminal and central server;

Fig. 2 is the system architecture diagram in the embodiment of the present invention;

Fig. 3 is novel street lamp in the embodiment of the present invention and information terminal frame structure schematic diagram;

Fig. 4 is intelligent information terminal frame structure schematic diagram of the present invention;

Fig. 5 is the structural representation of LED street lamp in the present invention;

Fig. 6 is LED light source frame structure schematic diagram of the present invention;

Fig. 7 is system schematic of the present invention;

Fig. 8 is wireless controller block diagram and peripheral interface schematic diagram in the present invention;

Fig. 9 is the power supply stabilization circuit schematic diagram of power management module in the present invention;

Figure 10 is the GPRS communication module power supply circuits schematic diagram of power management module in the present invention;

Figure 11 is the GPS module power supply circuits schematic diagram of power management module in the present invention;

Figure 12 is total processing module power supply circuits schematic diagram of power management module in the present invention;

Figure 13 is the circuit theory diagrams of total processing module and peripheral control circuits thereof in the present invention;

Figure 14 is the circuit theory diagrams of GPS module in the present invention;

Figure 15 is GPRS communication module and SIM card insertion circuit schematic diagram in the present invention;

Figure 16 is the circuit theory diagrams of Gensor numeral 3-axis acceleration sensing module in the present invention

Figure 17 is time block circuit theory diagrams in the present invention;

In Fig. 5: 1. lamp stand 2.LED light source 3. video monitoring 4. emergent broadcast 5. advertisement screen 6. transducer 7. card reader interface 8. microphone 9. alarm button 10. screen 11. wireless controller 12. microcomputer stations alternately;

Fig. 2 is specified to be Figure of abstract of the present invention.

[embodiment]

Below in conjunction with accompanying drawing, the invention will be further described, and the structure of this device and principle are very clearly concerning the people of this specialty.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

As shown in Figure 1, embodiments provide a kind of intelligent lighting and information interaction system, comprise green illumination information terminal and central server.Green illumination information terminal can be arranged in residential communities, the occasion that commercial circle and garden etc. are different.Green illumination information terminal is connected with central server by high speed broadband wireless networks such as the public WIFI in city.Administrative staff can log on central server by client and to manage green illumination information terminal and to control.

As shown in Figure 2, the present invention comprises user from system architecture, intelligent lighting and information interactive terminal, information resources utilization shared platform, backend infrastructure.Wherein intelligent lighting and information interactive terminal, for intelligent city's Service Source in city, community, the people's livelihood, the demand such as enterprise, be integrated with interactive application, the electronic offers Securities of the people's livelihood and electronic bill, the tracing to the source of enterprise, the saturated advertisement of industry, patrol and examine, the function such as call center.Information resoures exploitation shared platform shows main implementation information resource unified management, by providing public, there is industry dimension, personal touch's dimension, business tine dimension, all kinds of service datas of geographical position dimension, text and graphical information, static legal person's library information of all enterprises, people information and geography information in these information fusions specific region, also there is the information that dynamic business and people's livelihood business information, logistics, payment etc. relate to enterprise's affairs different from citizen, also relate to business relevant knowledge storehouse, geographical position and favor information.Backend infrastructure comprises Web server, application server, database server etc. needed for each application subsystem, also comprise public property, basic, server needed for supportive system, server as relevant in information security and various management servers etc.; Storage backup equipment is mainly used in the data storing each system, and the equipment that ensures break down after data can be restored.In backend infrastructure, also comprise the software environment of support applications system, comprising: database software, middleware software, operating system software, management system software, searching system software, intelligent analysis system software etc.

Green illumination as shown in Figure 3 and information terminal comprise: intelligent lighting light source adopts LED area light source as road-light light-source, and Fig. 5 is shown in by the structure chart of LED street lamp, and LED installs solar energy equipment, utilizes natural resources, energy-conserving and environment-protective.Intelligent information terminal is integrated with the communal facility modules such as electronic display, advertising lamp box, electronic ticket taking machine, newpapers and periodicals hurdle, adopt the wired and wireless communication technique of safety, and entirety realizes configurable in a modular manner, be applicable to different communities, commercial circle, industrial zone and municipal requirement.At information terminal functionally, be divided into some functional areas, citizen's common function region that such as map, newspaper, weather etc. are conventional, there is the Portlet characteristic of door.Green illumination and information terminal are function containers, this function container has and holds the hardware and software termination function such as website, mobile APP, Multimedia interactive program, location-based service, Digital Television, video and IMAQ, also should have WIFI, bluetooth, the data interaction function such as infrared.LED secondary light source adopts multiple color LED equally, adopts certain optical design, and its operating state is associated with the customizing messages of intelligent information terminal, such as: can reflect terminal region air quality index by the color of secondary light source; Meteorological disaster early warning signal etc.Green illumination light source comprises lighting source and secondary light source, as shown in Figure 6, wherein lighting source adopts cold white or warm white LEDs area source as road-light light-source, also can mix by two kinds of LED light sources, obtains adjustable white light source by effective optical design.Secondary light source, as the light source mutual with intelligent information terminal, can adopt the LED light source of multiple color, and such as red, green, blueness waits color light source.Whole LED light source can adopt electric main to power, and also can adopt solar photovoltaic powered.Also communication module is comprised, master board and drive circuit, protective circuit in LED light source module internal.Communication module mainly carries out LED light source and intelligent information terminal carries out the mutual of signal.First the operating state of LED can have central server and client to control flexibly, and the operating state of LED light source can carry out display as manufacturer, operating state, energy-conservation publicity etc. on intelligent terminal in addition.LED secondary light source can accept the various real time information such as regional air performance figure of intelligent information terminal perception by communication module in addition; Meteorological disaster early warning signals etc., by changing the color of light and light output as one Information issued instrument intuitively.

Intelligent terminal information terminal as shown in Figure 4 comprises as lower module: Communication processing module.The communication of primary responsibility and front end multimedia self-help terminal client, message interaction, packet parsing; Secure processing module, the data encryption signature authentication of primary responsibility and front end multimedia self-help terminal client.Multimedia self-help terminal administration module.The information of primary responsibility to multimedia terminal manages and certification, the parameter information of timing acquiring multimedia terminal and error message, and carries out analyzing and processing to information; Information inquiry module, multimedia self-help terminal client and community's all-in-one card platform are carried out information butt joint by primary responsibility, are inquired about by the uniform data interface that the information inquiring request information of client changes into rear end; Authentication module, primary responsibility by multimedia self-help terminal ID card information extracted and report and submit citizen's information system of rear end confirm errorless after, automatically extension process is carried out, to ensure that more capable success is opened in the certification of community's card to the term of validity of community-identity; Trade company's membership service module, primary responsibility community resident automatically can select the membership function adding certain trade company on Anyplace Kiosk, by multimedia self-help terminal, information is sent to platform, corresponding solicited message is sent in corresponding trade company's member system by platform and response message is returned back to multimedia self-help terminal.

Fig. 7 is the system framework schematic diagram in the present invention, composition graphs 8 wireless controller block diagram and peripheral interface schematic diagram, the 220V AC-powered that native system is independently separated by 3 tunnels; 1 tunnel to power use to LED street lamp, can control the independent ON/OFF that this road 220V powers by relay by wireless controller; 1 tunnel powers to 3 pieces of LCD display and 19V power panel uses, and the 19V of output to power use to PC computer main board, can control the independent ON/OFF that this road 220V powers by relay by wireless controller; 1 tunnel uses to 2 groups of POE+ cameras and 12V power panel, and the 12V of output to power use to 3G router, WIFI AP, pick-up and wireless controller, and this road 220V exchanges, export 12V direct current, do not control ON/OFF by relay by control board, be normal power supply, can not close.Wireless controller to be powered input by outside 12V, 4A, the inner 2800mAh poly-lithium battery that adopts is powered, can outside 12V power input charging (charging current controls at 1.2A), after outside 12V powers and disconnects, control board can automatically switch to powered battery, and can detect that (12V direct current supply disconnects in externally fed disconnection, may be that 12V power panel has problem, also be likely that outside 220V powers disconnection), and start GPRS data transmission this state information and out of Memory are reported go back to Surveillance center.Wireless controller inputs power supply by 12V direct current, and inside transfers 5V direct current to and 3.3V powers and other supply power voltage is powered; 12V also powers to audio frequency power amplifier in controller simultaneously; Need electric current 4A, 2A is to audio frequency power amplifier (20W), and 1.5A uses to other circuit of controller.Wherein the control signal output pin pin of the backlight of 3 LCDs is defined as follows: pin1:12V output, pin2:12V output, pin3:On/Off (5V), pin4:PWM-ADJ (3.3V), pin5:GND, pin6:GND: need 2 signals, one is ON/OFF (On/Off) signal, is generally 5V outputs level signals; One is PWM brightness regulation control signal, is generally 3.3V or 5V outputs level signals, and definition 3 cover independently exports backlight control signal, correspondence 3 independently LCDs, and these 3 interfaces are spare interface, default need not.

LED street lamp in the present invention also comprises following functions:

(1) .MP3 broadcasting+power amplifier function: by the interface of button, control pressing and discharging of button, carry out alternative, audio frequency power amplifier, by 12V, 2A Power supply, is 20W single channel, drives 4 ohm of loudspeaker.

A. support that USB flash disk inserts, the MP3 music in USB flash disk play automatically by firmware, and the firmware program inserting MP3 main control chip without USB flash disk can automatically switch in the audio frequency broadcasting of PC input.

B.USB socket: white connector control board being 5pin 2.0mm spacing, fly line is on the USB standard socket of outside.

C.PC earpiece audio outputs to the Line-in of the MP3 circuit of this control board, and the audio frequency that process and USB flash disk are play carries out alternative, outputs to power amplifier after selection.

(2) .GPRS function: GPRS antenna need pull out outside plate, is placed on the position that in complete machine, GSM signal is good, and adopt 4 frequency technical grade GPRS module, working temperature is-40 ~ 85 degrees Celsius, supports that Micro SIM card is inserted, and supports that the low-power consumption of GPRs manages.

(3) .GPS function: adopt technical grade GPS module, working temperature :-40 ~ 85 degrees Celsius, BD2/GPS bimodulus module can be matched, GPS active antenna can pull out outside plate, be placed on the position that in complete machine, gps signal is good, preferably be placed on the position of complete machine top plastic, avoid surrounding to have very near metal, gear falls gps signal.GPS supports standby electricity, and after being supported in system power failure, the standby electricity of GPS also exists, and supports that GPS does warm start.

(4). data recording function: be supported in particular cases (when GPRS can not be communicated with), record data in non-volatile external memory, when GPRS communication recovers, the center of repaying back.

(5) .2 ~ 3 road RS232 serial port function, 1 road and PC communication, RS232 level, use the white connector of 4pin, 2.54mm spacing, signal definition is: 5V, RXD, TXD, GND; 1 road and the communication of 3G router, RS232 level, uses green connecting terminal socket, and similar on 3G router, and 4pin signal definition is: 5V, RXD, TXD, GND:

A. this wireless controller is by RS232 serial ports and PC interface, by predetermined protocol (heartbeat function etc.), judge PC whether in normal operation, by giving PC power-off, power on (power supply being controlled outside relay control 220V alternating current indirectly by the GPIO mouth of 1 tunnel light-coupled isolation) re-power operation;

B. this wireless controller is by RS232 serial ports and PC communication, receives PC order, carries out ON/OFF control (power on/power-off) to the 220V AC-powered of powering to 3 pieces of liquid crystal display screens;

C. this wireless controller is by RS232 serial ports and the communication of 3G router, by predetermined protocol, and the order receiving 3G router and the information passed down, send the information uploaded, be sent to Surveillance center by 3G router, the power supply of 3G router is normal power supply, can not opening/closing.Control board judges 3G whether normal communication by RS232 agreement, is resetted to 3G module by control board order.

(6). integrated G-Sensor function: judge lamp condition according to coordinate figure, judges that whole set equipment is hit or fall down to the ground detection;

(7). integrated temperature, humidity sensor function: the transducer of bus interface, can go outside transducer bracing wire to plate, be placed on certain position be applicable to of complete machine.

(8). door lock monitoring function: 2 way switch amount inputs, be low level at ordinary times, door is high level after abnormal opening, the level change meeting wake-up device of input signal, equipment meeting multi collect, confirm the stable state of final door, and determine whether reporting to the police in conjunction with anti-theft state, and center can be made to send order in advance unlock to equipment or arrange anti-theft state.

(9). light sensor function: light sensor can pull out certain position being arranged on complete machine by fly line, detects the light of surrounding environment.

As shown in Fig. 9 to Figure 12, for the power supply the principle figure of critical piece in power management module in the present invention, power management module is sensing and induction module, light-adjusting module, fault alarm module, anti-theft module, data monitoring module, time block, wireless signal transmission module provide power supply.

GPRS powers and sees Figure 10: No. 10 of chip U1, No. 11 pins are connected in parallel to 1.8-5.5V high level voltage VIN_EXT, VIN_EXT draws one end and connects ground connection after electric capacity C3, the GPRS_PWR_EN signal exported from No. 21 pins of chip U7 is by being connected to No. 12 pins of chip U1 after resistance R32, contact resistance R7 between No. 12 pins of chip U1 and No. 11 pins, resistance R7 draws one end and connects ground connection after electric capacity C8, ground connection after No. 2 pin contact resistance R10 of chip U1, ground connection after No. 4 pins connection voltage stabilizing didoe D1 of chip U1, voltage stabilizing didoe D1 two ends shunt capacitance C1 and resistance R2, No. 4 pins of chip U1 are connected voltage stabilizing didoe D4 with between No. 11 pins, No. 4 pins are connected inductance L 1 with between No. 7 pins simultaneously, No. 7 pins are separately drawn one end and are connected voltage stabilizing didoe D2 to 9 pin, voltage stabilizing didoe D2 two ends parallel resistance R3 and electric capacity C2, 8 of chip U1, high level voltage VDD38D_GPRS is connected after No. 9 pins merge, and after extracting one end contact resistance R8 out, be connected to No. 13 pins of chip U1, resistance R8 two ends parallel resistance R6 and electric capacity C4, contact resistance R11 ground connection is merged with No. 13 pins after No. 14 pins connection electric capacity C9 of chip U1, electric capacity C9 two ends parallel resistance R9 and electric capacity C6, ground connection after No. 2 pin contact resistance R12 of chip U1, resistance R12 two ends shunt capacitance C10, resistance R12 separately draws one end contact resistance R13 and meets high level voltage VIN_EXT, simultaneously through the GPRS_BRUST_nEN signal of resistance R14 receiving chip U7 output.

GPS powers and sees Figure 11: No. 4 pins of chip U3 meet 2.5-5.5V high level voltage VIN_EXT, ground connection after another tap one end connection electric capacity C13, No. 1 pin of chip U3 receives No. 4 pin GPS_PWR_EN end signals from chip U10, and ground connection after extracting one end contact resistance R23 out, No. 6 pins of chip U3 are connected to after the LC filter circuit that No. 3 pins of chip U3 consist of inductance L 2 and electric capacity C14, electric capacity C14 two ends parallel resistance R21, resistance R21 draws ground connection after one section of contact resistance R24, inductance L 2 is drawn one end and is connected high level voltage VDD285D_GPS, ground connection after extraction one end connection electric capacity C16 simultaneously.

Usb circuit, cpu power filter circuit, control relay circuit, non-volatile external memory loop is arranged with outside total processing module of Figure 13.

No. 1 pin of the JH1 in usb circuit meets high level voltage VDD285D_CPU, No. 2 pins are connected to No. 1 pin of U6, and ground connection after tap one end connection bi-directional voltage stabilizing diode D14, No. 3 pins are connected to No. 47 pins of U7, and ground connection after tap one end connection bi-directional voltage stabilizing diode D15.

Cpu power filter circuit is made up of magnetic bead FB1, FB2 and electric capacity C27, C28, electric capacity C27 meets high level voltage VDD285A_CPU, electric capacity C27 two ends shunt capacitance C28, electric capacity C27 one end meets high level voltage VDD285D_CPU after connecting magnetic bead FB1, ground connection after electric capacity C27 other end connection magnetic bead FB2.

No. 1 pin GPRS_GPS_PWR_EN end of the chip U10 in control relay circuit is connected to No. 21 pins of chip U11, No. 1 pin CPU_GPS_PWR_EN of No. 3 pin connection chip U7 holds, No. 4 pins connect GPS_PWR_EN, No. 5 pins connect high level voltage VDD285D_CPU, and ground connection after parallel filtering electric capacity C33, No. 9 pin GPS_PWREN_nSW that No. 6 pins are connected to chip U7 hold.

No. 1, No. 3, No. 2, No. 5, No. 6 pins of the chip U9 in non-volatile external memory loop connect No. 10, No. 12, No. 27, No. 28, No. 31 pins of chip U7 respectively, the SPI communication bus of composition and chip U7, No. 8 pins of chip U9 meet high level voltage VDD285D_CPU, ground connection after parallel filtering electric capacity C29, C30, meets high level VDD285D_CPU after No. 7 pin contact resistance R41 of chip U9 simultaneously.

Gensor numeral 3-axis acceleration sensing module as shown in figure 16, No. 2 pin GSEN_SDA of chip U8 hold and are connected 15 of chip U7 with No. 12 pin GSEN_SCL ends, No. 16 as the SDA communication bus with chip U7, No. 3 pins of chip U8 meet high level voltage VDD285D_GSEN, simultaneously by ground connection after electric capacity C32, No. 4 pins of chip U8 are by ground connection after resistance R46, No. 5 pin pio chip initializing signals of chip U8 are supplied to chip U7, and ground connection after extracting one end contact resistance R47 out, No. 7 pins of chip U8 meet high level voltage VDD285D_GSEN, draw one end by filter capacitor C32 ground connection simultaneously, high level voltage VDD285D_GSEN is met after No. 11 pin contact resistance R44 of chip U8.

Figure 17 is the circuit diagram of time block in the present invention, No. 2 pins of the chip U15 in time block are connected to the drain electrode of field effect transistor Q4, high level voltage VDD285D_GSEN is connected to after the grid contact resistance R63 of field effect transistor Q4, the source electrode of field effect transistor Q4 is connected to the GSEN_SCL input in Gensor numeral 3-axis acceleration sensing module, No. 13 pins of chip U15 are connected to the drain electrode of field effect transistor Q5, high level voltage VDD285D_GSEN is connected to after the grid contact resistance R64 of field effect transistor Q5, the source electrode of field effect transistor Q5 is connected to the GSEN_SDA input in Gensor numeral 3-axis acceleration sensing module, No. 5 of chip U15, power supply VIN_EXT is connected to after No. 6 pin parallel connections, ground connection after another extraction one end connection electric capacity C47, electric capacity C47 two ends shunt capacitance C46, No. 10 of chip U15, No. 12 pin contact resistance R69 respectively, No. 2 pin of comparator U16 are attached to after R70, No. 5 pin of comparator U16 connect high level voltage VDD_INV, and ground connection after connecting electric capacity C48, high level voltage VIN_EXT is connected to after No. 5 pin of comparator U16 extract one end contact resistance R71 out simultaneously, bilateral diode D25 is connected between VDD_INV and VIN_EXT.

Claims (10)

1. an intelligent lighting and information interaction system, comprise user, several intelligent lighting terminals, several intelligent information service terminals, central server, administrative staff are by client logs central server and manage intelligent lighting terminal or intelligent information service terminal and control, it is characterized in that described intelligent lighting terminal and intelligent information service terminal are integral type terminal system or respective independently split type terminal system, described central server comprises information resources utilization shared platform and backend infrastructure, several intelligent lighting terminals or intelligent information service terminal are as several nodes, several nodes converge and are connected to each other by some wireless controllers, several wireless controllers are connected to central server, described wireless controller comprises total processing module, sensing and induction module, light-adjusting module, fault alarm module, anti-theft module, data monitoring module, wireless signal transmission module.

2. a kind of intelligent lighting as claimed in claim 1 and information interaction system, it is characterized in that described intelligent lighting terminal and intelligent information service terminal are integral type structure, common formation intelligent lighting and information interactive terminal, described intelligent lighting is connected central server with information interactive terminal by high-speed wideband wireless network.

3. a kind of intelligent lighting as claimed in claim 1 and information interaction system, it is characterized in that described intelligent lighting terminal and intelligent information service terminal are independent separately and the split type terminal system be connected to each other, described intelligent lighting terminal is connected central server with intelligent information service terminal respectively by high-speed wideband wireless network.

4. a kind of intelligent lighting as described in claim 1,2,3 and information interaction system, it is characterized in that described intelligent information terminal comprises multimedia self-help terminal administration module, multimedia self-help terminal administration module connects trade company's membership service module, information inquiry module, authentication module, Communication processing module, secure processing module respectively.

5. as claim 1, 2, a kind of intelligent lighting described in 3 and information interaction system, it is characterized in that described intelligent lighting terminal comprises lamp stand and LED light source, described lamp stand inside top is equipped with LED light source and video monitoring camera, be provided with the microcomputer station of carrying out information interaction with central server outside lamp stand, lamp pole body is embedded with emergent broadcast, advertisement screen, transducer, card reader interface, alarm button, microphone, mutual screen and wireless controller, described LED light source comprises red LED light source, green LED light source, blue led light source, White LED light source, described wireless controller is integrated with total processing module, sensing and induction module, light-adjusting module, fault alarm module, anti-theft module, data monitoring module, light detection module, time block, wireless signal transmission module and power management module, described sensing and induction module comprise light detection module, temperature sensing module, humidity sensor module, Gensor numeral 3-axis acceleration sensing module, described wireless signal transmission module comprises GPRS communication module and GPS module.

6. a kind of intelligent lighting as claimed in claim 5 and information interaction system, it is characterized in that described total processing module is controlled by chip U7, No. 1 pin CPU_GPS_PWR_EN end of chip U7 is connected to No. 3 ports of chip U10, No. 2 pin CPU_GPS_SPI_nSS of chip U7 hold, No. 13 pin CPU_GPS_SPI_SCK hold, No. 26 pin CPU_GPS_SPI_MISO hold, No. 38 pin CPU_GPS_SPI_MOSI ends are connected to 2 of chip U12 respectively, 16, 15, No. 14 pins, No. 3 pins of chip U7 are connected to No. 2 pins of chip U5, and ground connection after the bi-directional voltage stabilizing diode in parallel D13 of tap one end, high level VDD285D_CPU is met after No. 4 pin contact resistance R34 of chip U7, simultaneously by jumper cap JP2 ground connection, No. 6 pin XTALIN of chip U7 hold, crystal oscillator Y1 in parallel between No. 7 pin XTALOUT hold, crystal oscillator Y1 two ends connect electric capacity C22 respectively, C23, electric capacity C22, the other end ground connection composition crystal oscillator loop of C23, No. 8 pins of chip U7 meet high level voltage VDD285D_CPU, No. 9 pin GPS_PWREN_nSW ends are connected to No. 6 pins of chip U10, No. 10 pin SFLASH_SPI_nCS of chip U7 hold, No. 12 pin SFLASH_SPI_nWP hold, No. 27 pin SFLASH_SPI_MISO hold, No. 28 pin SFLASH_SPI_MOSI hold, No. 31 pin SFLASH_SPI_SCK hold No. 1 that is connected to non-volatile external memory chips U9 respectively, No. 3, No. 2, No. 5, No. 6 pins, the SPI communication bus of composition and chip U7, No. 8 pins of U9 meet high level voltage VDD285D_CPU, shunt capacitance C29 simultaneously, ground connection after C30, high level VDD285D_CPU is met after No. 7 pin contact resistance R41 of chip U9, the negative pole of No. 11 pin connecting luminous diode D17 of chip U7, the positive pole of light-emitting diode D17 is connected to high level voltage VDD285D_CPU by resistance R30, No. 14 pins of chip U7 are connected to voltage stabilizing didoe D8, No. 15 pin GSEN_SCL of chip U 7 hold, No. 16 pin GSEN_SDA hold No. 12 that are connected to Gensor numeral 3-axis acceleration sensing module chips U8 respectively, No. 2 pins, No. 17 pin CPU_SHDN# ends of chip U7 are connected to voltage stabilizing didoe D10, No. 18 pin SOS_KEY_ON_LED hold No. 2 pins connecting connector JP5, power vd D285D_CPU is connected to after No. 1 pin contact resistance R40 of connector JP5, No. 19 pin GPRS_nRESET ends of chip U7 are connected to No. 22 pins of GPRS communication module chips U11 after resistance R51, No. 19 of chip U7, No. 20 pins separately draw CAN_TXD end, CAN_RXD end is connected to No. 2 and No. 1 pin of connector JP4 respectively, compositing chip U7 and CAN communication, No. 20 pin GPRS_BURST_nEN of U7 hold simultaneously, No. 21 pin GPRS_PWR_EN ends are connected to No. 2 pins and No. 12 pins of power management module chips U1 respectively, No. 22 pin SOS_KEY_ON terminations of chip U7 receive No. 2 pin output signals from jumper cap JP1, No. 23 pin GPRS_UART_CTS of chip U7 hold, No. 45 pin GPRS_UART_RTS ends are connected to No. 14 pins of GPRS communication module chips U11 respectively, No. 13 pins, form the UART half duplex communication between total processing module and GPRS communication module, No. 24 pin GPRS_PWRON of chip U7 hold the resistance R52 be connected in GPRS communication module, No. 32 pin RTC_ALARM_INT of chip U7 hold No. 4 ports connecting comparator U16, No. 34 pin VBAT_NTC_EXT ends of chip U7 are connected to No. 3 pins of J1, ground connection after No. 34 pin shunt capacitance C20 simultaneously, high level voltage VIN_EXT is met after No. 35 pin contact resistance R35 of chip U7, ground connection after shunt capacitance C21 and resistance R38 composition RC filter circuit simultaneously, No. 36 pin GPRS_DTR_IN ends of chip U7 are connected to No. 12 pins of GPRS communication module chips U11, No. 37 pin GPRS_PC_UART_nSW of chip U7 hold and No. 46 pin CPU_UART_RXD hold No. 6 and No. 4 pins being connected to chip U6 respectively, No. 1 pin PC_UART_RXD of chip U6 holds and connects JH1 as USB interface, No. 5 pins connect high level voltage VDD285D_CPU, ground connection after shunt capacitance C19 simultaneously, No. 3 pin GPRS_UART_RXD terminations of U6 chip receive the UART communication signal of No. 16 pins outputs from chip U11, No. 40 pins of chip U7 are by meeting high level voltage VDD285D_CPU after resistance R28, No. 43 pins of chip U7 receive the mains switch exported through interrupteur SW 1, No. 44 pins meet high level voltage VDD285A_CPU, No. 47 pins are divided into PC_UART_TXD to hold and GPRS_UART_TXD end, PC_UART_TXD end is connected to No. 3 pins of JH1, No. 48 pin GPRS_R1_OUT hold output signal to be connected to No. 10 pins of chip U11.

7. a kind of intelligent lighting as claimed in claim 5 and information interaction system, it is characterized in that described power management module is sensing and induction module, light-adjusting module, fault alarm module, anti-theft module, data monitoring module, time block, wireless signal transmission module provides power supply, No. 43 pin PWRKEY_ON that 1.8-5.5V high level voltage VIN_EXT is connected to U7 chip after interrupteur SW 1 hold, and draw one end by voltage stabilizing didoe D5, ground connection after resistance R20, PWRKEY_ON holds bi-directional voltage stabilizing diode D11 in parallel, simultaneously at bi-directional voltage stabilizing diode D11 two ends parallel resistance R19, No. 1 end of JP1 jumper cap connects high level voltage VIN_EXT, No. 21 pin SOS_KEY_ON that No. 2 ends are connected to U7 chip hold, bi-directional voltage stabilizing diode D7 in parallel is held at SOS_KEY_ON, simultaneously at bi-directional voltage stabilizing diode D7 two ends parallel resistance R15, ground connection after No. 2 end another extraction one lines connection voltage stabilizing didoe D6 and resistance R20 of JP1 jumper cap, No. 14 pin GSEN_INT of chip U7 hold, No. 32 pin RTC_ALARM_INT hold, No. 17 pin CPU_SHDN# hold and connect voltage stabilizing didoe D8 respectively, D9, to connect after D10 R20 ground connection, No. 1 pin CPU_PWR_EN that another extraction one end exports chip U4 to holds, No. 6 pins of chip U4 are connected to after the LC filter circuit that No. 3 pins of chip U4 consist of inductance L 3 and electric capacity C17, electric capacity C17 two ends parallel resistance R22, resistance R22 draws ground connection after one section of contact resistance R25, inductance L 3 is drawn one end and is connected high level voltage VDD285D_CPU, ground connection after extraction one end connection electric capacity C18 simultaneously, No. 4 pins of chip U4 connect high level voltage VIN_EXT, ground connection after another tap one end connection electric capacity C15, No. 4 ends of chip U2 connect 1.6-20V high level voltage VIN_EXT, and ground connection after tap one end connection electric capacity C11, contact resistance R17 between No. 4 ports of chip U2 and No. 5 ports, high level voltage VDD285D_GSEN is connected to after No. 2 of chip U2 and No. 3 pins merge, and No. 1 port of tap one end contact resistance R16 to chip U2, after connecting electric capacity C12, ground connection carries out filtering, ground connection after resistance R16 contact resistance R18 simultaneously, No. 4 pins of chip U3 meet 2.5-5.5V high level voltage VIN_EXT, ground connection after another tap one end connection electric capacity C13, No. 1 pin of chip U3 receives No. 4 pin GPS_PWR_EN end signals from chip U10, and ground connection after extracting one end contact resistance R23 out, No. 6 pins of chip U3 are connected to after the LC filter circuit that No. 3 pins of chip U3 consist of inductance L 2 and electric capacity C14, electric capacity C14 two ends parallel resistance R21, resistance R21 draws ground connection after one section of contact resistance R24, inductance L 2 is drawn one end and is connected high level voltage VDD285D_GPS, ground connection after extraction one end connection electric capacity C16 simultaneously, No. 10 of chip U1, No. 11 pins are connected in parallel to 1.8-5.5V high level voltage VIN_EXT, VIN_EXT draws one end and connects ground connection after electric capacity C3, the GPRS_PWR_EN signal exported from No. 21 pins of chip U7 is by being connected to No. 12 pins of chip U1 after resistance R32, contact resistance R7 between No. 12 pins of chip U1 and No. 11 pins, resistance R7 draws one end and connects ground connection after electric capacity C8, ground connection after No. 2 pin contact resistance R10 of chip U1, ground connection after No. 4 pins connection voltage stabilizing didoe D1 of chip U1, voltage stabilizing didoe D1 two ends shunt capacitance C1 and resistance R2, No. 4 pins of chip U1 are connected voltage stabilizing didoe D4 with between No. 11 pins, No. 4 pins are connected inductance L 1 with between No. 7 pins simultaneously, No. 7 pins are separately drawn one end and are connected voltage stabilizing didoe D2 to 9 pin, voltage stabilizing didoe D2 two ends parallel resistance R3 and electric capacity C2, 8 of chip U1, high level voltage VDD38D_GPRS is connected after No. 9 pins merge, and after extracting one end contact resistance R8 out, be connected to No. 13 pins of chip U1, resistance R8 two ends parallel resistance R6 and electric capacity C4, contact resistance R11 ground connection is merged with No. 13 pins after No. 14 pins connection electric capacity C9 of chip U1, electric capacity C9 two ends parallel resistance R9 and electric capacity C6, ground connection after No. 2 pin contact resistance R12 of chip U1, resistance R12 two ends shunt capacitance C10, resistance R12 separately draws one end contact resistance R13 and meets high level voltage VIN_EXT, simultaneously through the GPRS_BRUST_nEN signal of resistance R14 receiving chip U7 output.

8. a kind of intelligent lighting as claimed in claim 5 and information interaction system, it is characterized in that described wireless signal transmission module comprises GPRS communication module and GPS module, No. 2 pins of GPRS communication module chips U11 meet high level V_BCKP, No. 10 of chip U11, No. 13, No. 14 pins connect No. 48 pins of chip U7 respectively, No. 45 pins, No. 23 pins, No. 12 pins of chip U11 connect No. 36 pins of chip U7, simultaneously by resistance R58 ground connection, No. 15 pin GPRS_UART_TXD of chip U11 hold, No. 16 pin GPRS_UART_RXD hold No. 3 pin compositions of No. 47 pins and the chip U6 connecting chip U7 respectively and the UART communication bus of master chip, high level voltage V_BCKP is met after No. 19 pin connecting resistance R50 of chip U11, extract the collector electrode of one end connecting triode Q2 out simultaneously, the grounded emitter of triode Q2, No. 24 pin GPRS_PWRON that the base stage of triode Q2 connects chip U7 by resistance R52 holds, while the base stage of triode Q2 and emitter between parallel resistance R55, No. 20 pins of chip U11 are connected to the base stage of triode Q3 by resistance R54, simultaneously parallel resistance R57 between the base stage of triode Q3 and emitter, the collector electrode connecting luminous diode D23 negative pole of triode Q3, high level voltage VDD285D_GPRS is met after light-emitting diode D23 positive pole contact resistance R49, No. 21 of chip U11, No. 22 pins connect No. 1 and No. 6 pins of chip U 10, No. 23, No. 24, No. 30, No. 31 pins connect No. 20 of chip U12 respectively, No. 4, No. 19, No. 18 pins, No. 32 pin SIM_CLK of chip U11 hold, No. 33 pin SIM_DATA hold, No. 34 pin SIM_RST hold shunt regulator diode D20 respectively, D22, No. 3 of J4 are connected to after D21, No. 6, No. 2 pins are as sim card slot input signal end, No. 1 pin of J4 meets high level voltage SIM_VDD, bi-directional voltage stabilizing diode D19 in parallel simultaneously, electric capacity C36 and C37, No. 1 pin GPRS_ANT2 that No. 47 pins of chip U11 are connected to J3 by resistance R73 and R48 holds, No. 2 pin contact resistance R72 of J3, after No. 47 pins of chip U11 draw one end connection electric capacity C49 simultaneously, ground connection and resistance R73 form single order RC filtering, after the resistance R73 other end draws one end connection electric capacity C35, ground connection and resistance R48 form Order RC filtering, the resistance R48 other end is extracted a line out and is connected ground connection after electric capacity C34, No. 50 pins of chip U11 connect high level voltage VDD38D_GPRS, simultaneously by ground connection after electric capacity C41, C40, C39, C38, No. 2 pin CPU_GPS_SP1_nSS of GPS module chips U12 hold, No. 14 pin CPU_GPS_SPI_MOSI hold, No. 15 pin CPU_GPS_SPI_MISO hold, No. 16 pin CPU_GPS_SPI_SCK hold No. 2 that connect chip U7 respectively, No. 38, No. 26, the SPI communication bus of No. 13 pin compositions and master chip, No. 4 pins of chip U12 connect No. 23 pins of chip U11, No. 8 of chip U12, high level VDD275D_LNA is met by magnetic bead FB3 after No. 9 pin parallel connections, No. 4 pin OUT of No. 11 pins connection filter U18 of the U12 of chip hold, No. 1 pin IN of filter U18 holds No. 5 pin OUT connecting amplifier U17 to hold, as control signal input port, No. 1 pin of amplifier U17 connects VDD275D_LNA, ground connection after connection electric capacity C52 simultaneously, high level voltage VDD275D_LNA is met after No. 4 pin contact resistance R75 of amplifier U17, No. 6 pins connect VDD275D_LNA, and ground connection after tap one end connection electric capacity C26, No. 3 pins of U17 connect No. 4 pin OUT ports of filter U14 by inductance L 5, No. 1 pin of filter U14 connects J5 by electric capacity C54, and ground connection after tap one end connection electric capacity C50, J5 is then by bi-directional voltage stabilizing diode D5 ground connection, No. 31, No. 30 pins that No. 18 pin GPRS_GPS_SDA hold, No. 19 pin GPRS_GPS_SCL connect chip U11 respectively of chip U12, No. 23 pin GPS_DATA_READY of No. 20 pins connection chip U11 of chip U12 hold, No. 22 pins of chip U12 meet high level VDD285D_GPS_VBCKP, ground connection after extraction one end connection electric capacity C45 simultaneously, No. 23 pins of chip U12 connect high level voltage VDD285D_GPS, ground connection after extraction one end connection electric capacity C24 simultaneously, electric capacity C24 two ends C44 in parallel.

9. a kind of intelligent lighting as claimed in claim 1 and information interaction system, it is characterized in that described total processor for receiving sensing and induction module, information that light-adjusting module, fault alarm module, anti-theft module, data monitoring module send be sent to information resources utilization shared platform by wireless signal transmission module, control total processor by administrative staff and/or backend infrastructure by wireless signal transmission module again, control signal is transferred to respectively light-adjusting module, fault alarm module, anti-theft module, data monitoring module.

10. a kind of intelligent lighting as described in claim 1 or 9 and information interaction system, is characterized in that described sensing and induction module are for gathering illumination intensity information, information of vehicle flowrate; Described light-adjusting module is for the control signal that accepts total processor and send and transfer to intelligent lighting terminal, thus regulating illumination intensity; Described fault alarm module is for gathering alarm signal and transferring to total processor; Described anti-theft module for accepting the abnormal signal near light fixture cable, and feeds back to total processor; Described data monitoring module also arranges for the data accepting to be sent by node and feeds back to total processor, thus realizes remote transmission data function.