CN201134134Y

CN201134134Y - Intelligent hidden remote-control antitheft device

Info

Publication number: CN201134134Y
Application number: CNU2007201385153U
Authority: CN
Inventors: 张瑞峰
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-12-27
Filing date: 2007-12-27
Publication date: 2008-10-15
Anticipated expiration: 2017-12-27

Abstract

The utility model relates to an intelligent invisible remote control guard against theft device for the auto intelligent invisible remote control guard against theft field. The utility model mainly resolves the technical difficulties of prior auto guard against theft device, such as single against theft function without alarm function, easily intercepted password, complex operation and high price. The intelligent invisible remote control guard against theft device comprises a power circuit, an authorization ID, a transmitting and receiving circuit, a detecting circuit, a main control circuit, a plurality of control circuits, a sound light alarm circuit and an invisible control circuit, wherein the transmitting and receiving circuit is connected with the main control circuit, the detecting circuit is connected with the 42nd pin of the main control circuit, the control circuits are connected with the 20th pin of the main control circuit to control the theft against elements, the sound light alarm circuit is connected with the 44th pin and the 16th pin of the main control circuit, the invisible control circuit is wirelessly connected with the main control circuit, and the authorization ID is wirelessly connected with the main control circuit.

Description

The intelligent invisible remote-control alarm

Technical field

The utility model relates to a kind of intelligent invisible remote-control alarm, it is antitheft that it mainly applies to the automobile intelligent invisible remote-control, also can apply to other safety-protection systems, be that a kind of applying RFID REID, embedded technology and wireless remote control technology are realized the antitheft device of intelligent alarm.

Background technology

Car alarm be a kind of installation onboard, be used for preventing to steal the device of car.Alarm can divide three major types substantially by its structure at present: mechanical type, electronic type and network type.

Mechanical antitheft lock mainly is to reach antitheft purpose by locking clutch, braking, throttle or steering wheel, gear, does not report to the police but this theftproof lock is only antitheft.Its advantage is a low price, simple installation.Shortcoming is antitheft not thorough, and each dismounting is cumbersome, and the time spent must not looked for local the placement.

In order to overcome the defective of mechanical lock, electronic alarm anti-theft arises at the historic moment.It mainly reaches antitheft purpose by network type electron or starting, has antitheft and warning function simultaneously.But electronic anti-theft device ubiquity false alarm phenomenon, password is easily intercepted, and burglary-resisting system easily searched for by following the clues by the robber and remove antitheftly, and various operations such as unblanking, shut need remote manual control defective such as to carry out.

Gps satellite location automotive theft proof system belongs to the network type alarm, and it also is to reach antitheft purpose by network type electron or starting, also can pass through this positioning system simultaneously, and warning vehicle position information is sent to alarm center with communication modes such as GPRS, CDMA.The GPS alarm is the monitor vehicle position in real time, monitors sound in the car by onboard mobile telephone, can close vehicle oil way, circuit and locked all door and windows by mobile phone in case of necessity.If the GPS alarm is illegally dismantled, it also can send warning message.The antitheft effect of this product is apparent in view, but shortcoming is, the operation more complicated costs an arm and a leg, and practicality and generalization are relatively poor, should not be accepted by users.

Summary of the invention

The purpose of this utility model is the intelligent invisible remote-control alarm that solves the technological difficulties that above-mentioned alarms and security systems for automobiles exists and a kind of can intelligent invisible antitheft, low price is provided, need not to operate.

The utility model for the technical scheme that solves above-mentioned technological difficulties and adopt is: the intelligent invisible remote-control alarm, it comprises feed circuit, and wherein: it also comprises authorizes ID, transmission circuit, testing circuit, governor circuit, several control circuit, sound light alarming circuit and stealthy control circuit; 11 pin of master chip U1 in 6,7 pin of high frequency receiver module M1 in the transmission circuit and the governor circuit are connected, 13 pin of master chip U1 in 3 pin of high-frequency emission module M2 and the governor circuit are connected, and 15 pin of the master chip U1 of the base stage of the triode T3 in the transmission circuit in resistance R 5 and governor circuit are connected; 42 pin of master chip U1 in collector series connection resistance R 1 back of triode T1 in the testing circuit and the governor circuit are connected; 20 pin of the master chip U1 of the base stage of triode T2 in the control circuit in resistance R 7 and governor circuit are connected to control antitheft parts; 44 pin of the master chip U1 of the base stage of triode T4 in the sound light alarming circuit in resistance R 10 and governor circuit are connected, and 16 pin of the master chip U1 of the base stage of the triode T5 in the sound light alarming circuit in resistance R 14 and governor circuit are connected; Stealthy control circuit is connected by wireless signal with governor circuit; Authorize ID to be connected by wireless mode with governor circuit.

Because the utility model has adopted the technical scheme of RFID REID, embedded technology and wireless remote control technology, the realization intelligent invisible is antitheft, need not key, need not operation, when authorizing ID apart from 1 meter left and right sides of vehicle, this device is with auto-unlocking, and anti-theft feature automatically terminates, and vehicle enters normal mode of operation.When authorizing ID to leave, car door, window will automatically lock, and Vehicle Anti-Theft System will enter the guard model of circuit, oil circuit, startup locking automatically.Therefore, compare, the utlity model has following advantage with background technology:

1, intelligence is unblanked: when authorizing ID near vehicle, need not any operation, lock is opened automatically.

2, intelligence is locked: when authorizing ID to leave vehicle, car door automatically locks.

3, intelligence rises window: authorize ID behind car, the vehicle window of not closing rises automatically.

4, intelligent locking: authorize ID behind car, circuit, oil circuit and startup all lock.

5, Intelligent Recognition: system verifies the mandate id information automatically, and unauthorized information can't release.

6, intelligent prompt: after authorizing ID to leave vehicle, do not shut system's acousto-optic hint as car door.

7, invisible antitheft: close key control unit and realized wireless stealthy control mode.

8, low price, need not the operation.

Description of drawings

Fig. 1 is the schematic diagram of host circuit of the present utility model;

Fig. 2 is the schematic diagram of mandate ID circuit of the present utility model;

Fig. 3 is the schematic diagram of stealthy control circuit of the present utility model.

Embodiment

Below in conjunction with drawings and Examples the utility model is described in further detail.

As Fig. 1, Fig. 2 and shown in Figure 3, intelligent invisible remote-control alarm among the embodiment, it comprises feed circuit, and wherein: it also comprises authorizes ID, transmission circuit, testing circuit, governor circuit, several control circuit, sound light alarming circuit and stealthy control circuit; 11 pin of master chip U1 (MC9S08AW16) in 6,7 pin of high frequency receiver module M1 in the transmission circuit and the governor circuit are connected, 13 pin of master chip U1 (MC9S08AW16) in 3 pin of high-frequency emission module M2 and the governor circuit are connected, and 15 pin of the master chip U1 (MC9S08AW16) of the base stage of the triode T3 in the transmission circuit in resistance R 5 and governor circuit are connected; 42 pin of master chip U1 (MC9S08AW16) in collector series connection resistance R 1 back of triode T1 in the testing circuit and the governor circuit are connected; 20 pin of the master chip U1 (MC9S08AW16) of the base stage of triode T2 in the control circuit in resistance R 7 and governor circuit are connected to control antitheft parts; 44 pin of the master chip U1 (MC9S08AW16) of the base stage of triode T4 in the sound light alarming circuit in resistance R 10 and governor circuit are connected, and 16 pin of the master chip U1 (MC9S08AW16) of the base stage of the triode T5 in the sound light alarming circuit in resistance R 14 and governor circuit are connected; Stealthy control circuit is connected by wireless signal with governor circuit; Authorize ID to be connected by wireless mode with governor circuit.

As shown in Figure 1, described governor circuit is made up of master chip U1 (MC9S08AW16), crystal oscillator Y1 and capacitor C 1, C11, C12,5,17,38 pin of master chip U1 (MC9S08AW16) with connect the 5V power supply, the other end ground connection of capacitor C 1 after an end of capacitor C 1 is connected; 6,18,39, the 28 pin ground connection of master chip U1 (MC9S08AW16), 21,22,23,24,25,26 pin of master chip U1 (MC9S08AW16) are connected with 1～6 pin of toggle switch S2,7,8 pin of master chip U1 (MC9S08AW16) are connected with the two ends of crystal oscillator Y1, the base stage of the triode T4 of 44 pin of master chip U1 (MC9S08AW16) in resistance R 10 and sound light alarming circuit is connected, and the base stage of the triode T5 of 16 pin of master chip U1 (MC9S08AW16) in resistance R 14 and sound light alarming circuit is connected; 20,30,31,32,33,34,35,36,37,43 pin of master chip U1 (MC9S08AW16) are connected with No. ten control circuits, realize the control to ten functions; 12,19,40,41,42 pin of master chip U1 (MC9S08AW16) connect testing circuit, detect the various states of automobile; 27,29 pin of master chip U1 (MC9S08AW16) connect the 5V power supply, 14 pin of master chip U1 (MC9S08AW16) are connected with the negative pole of the diode D2 of AND circuit, 13 pin of master chip U1 (MC9S08AW16) are connected with 3 pin of high-frequency emission module M2,15 pin of master chip U1 (MC9S08AW16) are connected with an end of

resistance R

5, and 11 pin of master chip U1 (MC9S08AW16) are connected with 6,7 pin of high frequency receiver module M1; Be attempted by the two ends of crystal oscillator Y1 after capacitor C 11 and the C12 serial connection, the tie point ground connection of capacitor C 11 and C12.1,2,3 pin of master chip U1 (MC9S08AW16) are program download ports.J1 is the output interface of six ports, and the output command of host computer control circuit links to each other with the electrode of automobile by this interface, each parts of concrete Control of Automobile; J2 is the interface of six ports, and 1 pin connects the 12V power supply, 2 pin ground connection, and 3,4,5,6 pin connect the signal (being testing circuit) of automobile input, and the various status informations of automobile are transferred in the governor circuit by the J2 interface; J3 is the output interface of 12 ports, and wherein 12 pin connect the 5V power supply, and 11 pin connect automobile lamp, 1,2,3,4,5,6,8,9,10 pin connection control circuits, and the output command of governor circuit links to each other with the electrode of automobile by this interface, each parts of concrete Control of Automobile.

As shown in Figure 1, described transmission circuit is made up of chip U2 (74HC4060), U3 (TC4422), high frequency receiver module M1, high-frequency emission module M2, triode T3, diode D2, D3, resistance R 4, R5, R6, R12, R13, capacitor C 2, C3, C4, C5, C13, C14, C15 and inductance L 1; 2,3, the 8 pin ground connection of high frequency receiver module M1,1 pin of high frequency receiver module M1 connects antenna, and 4,5 pin of high frequency receiver module M1 connect the 5V power supply, and 6,7 pin of high frequency receiver module M1 are connected with 11 pin of master chip U1 (MC9S08AW16); 1 pin of high-frequency emission module M2 connects antenna, the 2 pin ground connection of high-frequency emission module M2, and 3 pin of high-frequency emission module M2 are connected with 13 pin of master chip U1 (MC9S08AW16), and 4 pin of high-frequency emission module M2 connect the 5V power supply; High frequency receiver module M1 and high-frequency emission module M2 are embedded in the governor circuit in embedded mode, and high frequency receiver module M1 mainly is responsible for receiving the mandate id information that telepilot sends, and high-frequency emission module M2 mainly is responsible for sending the stealthy control command of main frame; 11 pin of chip U2 (74HC4060) are connected with the end of crystal oscillator Y2, the other end serial connection capacitor C 13 back ground connection of crystal oscillator Y2, resistance R 12 and the two ends that are attempted by crystal oscillator Y2 after resistance R 13 is connected in series, the tie point of resistance R 12 and resistance R 13 is connected with 10 pin of chip U2 (74HC4060), one end of capacitor C 14 is connected with 11 pin of chip U2 (74HC4060), the other end ground connection of

capacitor C

14,16 pin of chip U2 (74HC4060) are connected with the collector of triode T3, one end of capacitor C 15 is connected with the collector of triode T3, the other end ground connection of capacitor C 15, the emitter of triode T3 connects the 5V power supply, the base stage of triode T3 is connected with 15 pin of master chip U1 (MC9S08AW16) by resistance R 5, resistance R 6 is attempted by between the base stage and emitter of triode T3,5 pin of U2 (74HC4060) are connected with the negative pole of AND circuit diode D3, the positive pole of diode D3 is connected with 2 pin of chip U3 (TC4422), the negative pole of AND circuit diode D2 is connected with 14 pin of master chip U1 (MC9S08AW16), the positive pole of diode D2 is connected with 2 pin of chip U3 (TC4422), one end of resistance R 4 is connected with the positive pole of diode D2, another termination 5V power supply of resistance R 4, the 8 pin ground connection of U2 (74HC4060); 1 and 8 pin of chip U3 (TC4422) connect the 12V power supply, 6 of chip U3 (TC4422) is connected with the end of 7 pin with the inductance L 1 of LC oscillation circuit, the other end of inductance L 1 is connected with a end after capacitor C 3, C4, the C5 parallel connection, other end ground connection after capacitor C 3, C4, the C5 parallel connection, 4 and the 5 pin ground connection of chip U3 (TC4422), one termination 12V power supply of capacitor C 2, the other end ground connection of capacitor C 2.

As shown in Figure 1, described control circuit is made up of triode T2, diode D4, relay J DQ10 and resistance R 7, R8, the base stage of triode T2 is connected through 20 pin of resistance R 7 with master chip U1 (MC9S08AW16), the collector of triode T2 is connected with the positive pole of diode D4 and an end of relay J DQ10 coil, another termination 12V power supply of the negative pole of diode D4 and relay J DQ10 coil, the grounded emitter of triode T2, resistance R 8 is attempted by between the base stage and emitter of triode T2, and the contact of relay J DQ10 connects the power supply of automobile.Control circuit of the present utility model is ten the tunnel, and the control circuit on each road is all identical with above-mentioned control circuit.

As shown in Figure 1, described sound light alarming circuit is made up of triode T4, T5, resistance R 9, R10, R11, R14, R15 and loudspeaker U5, the base stage of triode T4 is connected through 44 pin of resistance R 10 with master chip U1 (MC9S08AW16), the collector of triode T4 is connected with car light through resistance R 9, the grounded emitter of triode T4, resistance R 11 are attempted by between the base stage and emitter of triode T4; The base stage of triode T5 is connected through 16 pin of resistance R 14 with master chip U1 (MC9S08AW16), the collector of triode T5 is connected with the end of loudspeaker U5, another termination 5V power supply of loudspeaker U5, the grounded emitter of triode T5, resistance R 15 is attempted by between the base stage and emitter of triode T5.

As shown in Figure 1, described testing circuit is by triode T1, voltage stabilizing diode DW1, resistance R 1, R2, R3 and capacitor C 6 are formed, the base stage of triode T1 is connected with 6 pin of J2 interface through resistance R 2, collector series connection resistance R 1 back of triode T1 is connected with 42 pin of master chip U1 (MC9S08AW16), the negative pole of voltage stabilizing diode DW1 is connected with 42 pin of master chip U1 (MC9S08AW16), the plus earth of voltage stabilizing diode DW1, the grounded emitter of triode T1, resistance R 3 is attempted by between the base stage and emitter of triode T1, and capacitor C 6 is attempted by between the collector and emitter of triode T1.Testing circuit of the present utility model can have multichannel, and the testing circuit on each road is all identical with above-mentioned testing circuit.

As shown in Figure 1, described feed circuit are made up of chip U4 (7805), diode D1 and capacitor C 7, C8, C9, C10, the positive pole of diode D1 connects the 12V power supply, the negative pole of diode D1 is connected with 1 pin of chip U4 (7805), the one end is connected other end ground connection with 1 pin of chip U4 (7805) to capacitor C 7 with C8 and after connecing; The 2 pin ground connection of chip U4 (7805), 5,17,38,27 of 3 pin of chip U4 (7805) and master chip U1 (MC9S08AW16) is connected 5V is provided power supply for master chip U1 (MC9S08AW16) with 29 pin, the one end is connected other end ground connection with 3 pin of chip U4 (7805) to capacitor C 9 with C10 and after connecing.

As shown in Figure 2, described mandate ID circuit is by chip U6 (37122), U7 (F1232), triode T6, T7, wave filter R315, light emitting diode DG1, crystal oscillator Y3, resistance R 16, R17, R18, R19, R20, R21, capacitor C 16, C17, C18, C19, C20, C21, C22, C23, C24, C25, C26, C27, C28, C29, C30, C31 and inductance L 2, L3 forms, capacitor C 18, C19, C20 is connected with 3 pin of chip U6 (37122) with the LC oscillation circuit one end that inductance L 2 is formed, the other end is connected with 16 pin of chip U6 (37122), capacitor C 21, C22, C23 is connected with 14 pin of chip U6 (37122) with the LC oscillation circuit one end that inductance L 3 is formed, and the other end is connected with 16 pin of chip U6 (37122); Chip U6 (37122) 7,8,9,10,11 and 12 pin are connected with 12 pin with 23,22,21,11,13 of chip U7 (F1232) respectively, 2 pin of chip U6 (37122) and 6 pin and connect after meet power supply VCC, one termination power VCC of capacitor C 26, the other end ground connection of capacitor C 26; The base stage of triode T6 is connected with an end of

resistance R

17 and 1 pin of wave filter R315, the other end of resistance R 17 is connected with 2 pin of wave filter R315 and 2 ends of

inductance L

2,1 termination power VCC of

inductance L

2,2 ends of inductance L 2 are connected with 1 end of

inductance L

3,2 ends of inductance L 3 are connected with the collector of triode T6 and are connected with antenna by capacitor C 24, the emitter of triode T6 is connected with the collector of triode T7 and 3 pin of wave filter R315, capacitor C 25 is serially connected between 2 pin and 3 pin of wave filter R315, the base stage of triode T7 is connected the grounded emitter of triode T7 by resistance R 16 with 9 pin of chip U7 (F1232); Capacitor C 27 is with C28 and connect back one termination power VCC, its other end ground connection; Resistance R 18 is connected in series back one termination power VCC with capacitor C 29, its other end ground connection, and resistance R 18 is connected with 7 pin of chip U7 (F1232) with the tie point of capacitor C 29; Resistance R 19 is connected in series back one termination power VCC with

resistance R

20,14 pin of its another chip termination U7 (F1232), and resistance R 19 is connected with 8 pin of chip U7 (F1232) with the tie point of resistance R 20; The positive pole of light emitting diode DG1 meets power supply VCC, and the negative pole of light emitting diode DG1 is connected with an end of resistance R 21, and the other end of resistance R 21 is connected with 10 pin of chip U7 (F1232); The end of crystal oscillator Y3 is connected with 5 pin of chip U7 (F1232), and the other end of crystal oscillator Y3 is connected with 6 pin of chip U7 (F1232), is attempted by the two ends of crystal oscillator Y3 after capacitor C 30 and the C31 serial connection, the tie point ground connection of capacitor C 30 and C31; 2 pin of chip U7 (F1232) meet power supply VCC, the 4 pin ground connection of chip U7 (F1232).

As shown in Figure 3, described stealthy control circuit is made up of chip U8 (MC9S08AW16), chip U9 (7805), triode T6, T7, diode D5, D6, LED, crystal oscillator Y4, resistance R 22, R23, R24, R25, R26, capacitor C 32, C33, C34, C35, C36, C37, C38, relay J DQ, transmitter module M3, receiver module M4, interface J4, J6, J7, power input mouth J5 and loudspeaker BELL; One end of the resistance R 25 in 24,25,26 pin of chip U8 (MC9S08AW16) and several control circuits is connected, the other end of resistance R 25 is connected with the base stage of triode T7, the collector of triode T7 is connected with an end of relay J DQ coil, another termination 12V power supply of relay J DQ coil, the grounded emitter of triode T7, resistance R 26 is attempted by between the base stage and emitter of triode T7, the positive pole of diode D6 is connected with the collector of triode T7, the negative pole of diode D6 connects the 12V power supply, and the contact of relay J DQ is connected with 1,3 pin of interface J4; 2 pin of chip U8 (MC9S08AW16) are connected through the base stage of resistance R 23 with triode T6, the collector of triode T6 is connected with the end of loudspeaker BELL, another termination 5V power supply of loudspeaker BELL, the grounded emitter of triode T6, resistance R 24 is attempted by between the base stage and emitter of triode T6, to send the tinkle of bells prompting; 23 pin of chip U8 (MC9S08AW16) are connected with an end of resistance R 22, and the other end of resistance R 22 is connected with the negative pole of LED, and the positive pole of LED connects the 5V power supply, to send light prompt; 7,8 pin of chip U8 (MC9S08AW16) are connected with the two ends of crystal oscillator Y4, are attempted by the two ends of crystal oscillator Y4 after capacitor C 36 and the C37 serial connection, the tie point ground connection of capacitor C 36 and C37; 3,5, the 21 pin ground connection of chip U8 (MC9S08AW16), 4,6,18,20 pin of chip U8 (MC9S08AW16) connect the 5V power supply, a termination 5V power supply of capacitor C 38, the other end ground connection of capacitor C 38; 15,16,17 pin of chip U8 (MC9S08AW16) connect program and download mouth; 9,10,11 pin of chip U8 (MC9S08AW16) are connected with 1,2,4 pin of interface J6; 1 pin of transmitter module M3 connects antenna, 2 pin ground connection, and 3 pin are connected with 27 pin of chip U8 (MC9S08AW16), and 4 pin connect the 5V power supply, are responsible for execution result is transmitted to main frame; 1 pin of receiver module M4 connects antenna, 2,3,8 pin ground connection, and 4,5 pin connect the 5V power supply, and 6,7 pin are connected with 32 pin of chip U8 (MC9S08AW16), are responsible for receiving the stealthy control command that main frame issues; Chip U9 (7805), diode D5 and capacitor C 32, C33, C34, C35 constitute feed circuit, the positive pole of diode D5 connects the 12V power supply, the negative pole of diode D5 is connected with 1 pin of chip U9 (7805), the 2 pin ground connection of chip U9 (7805), and 3 pin of chip U9 (7805) connect the 5V power supply; The one end is connected other end ground connection with 1 pin of chip U9 (7805) to capacitor C 32 with C33 and after connecing; The one end is connected other end ground connection with 3 pin of chip U9 (7805) to capacitor C 34 with C35 and after connecing; 1 pin of power input mouth J5 connects the 12V power supply, 2 pin ground connection; 3 pin of interface J6 connect the 5V power supply, 5 pin ground connection.

Principle of work of the present utility model is: handle the output low frequency signal through U2 (74HC4060) frequency division after the 4M crystal oscillator starting of oscillation of main frame, signal meets U3 (TC4422) by AND circuit, signal amplifies through U3 (TC4422) to be exported from the 6th and 7 pin, connect the LC resonant circuit, around the air core coil L1 of resonant circuit, produce low frequency magnetic field, send wake-up signal; When authorizing ID near this magnetic field, authorize the reception of the LC oscillation circuit in low frequency receiving circuit wake-up signal in the ID, authorize ID to be waken up, and send the mandate id information by radiating circuit; Receiver module M1 receives to authorize behind the id information through receiver module M1 and will authorize id information to deliver to that master chip U1 decodes and the decipherment algorithm verification in the host circuit, realizes identification with the RFID technology; After the identification, main frame U1 comes direct control module is carried out control by controlling a plurality of control circuits through output port, as the control of door lock, the control of warning, the control of two sudden strains of a muscle etc.Send stealthy control command to transmitter module M2 by port one 3 simultaneously, launch stealthy control command by transmitter module M2 and give stealthy control circuit; Stealthy control circuit is carried out the stealthy control command of main frame by control circuit, realize the control to stealthy control module, as oil circuit, circuit etc., by transmitter module M3 execution result is sent to main frame then, realizes both-way communication.

Workflow of the present utility model is:

1. operate as normal

When authorizing ID near vehicle, during apart from 1 meter left and right sides of car, transceiver receives the encrypted message of authorizing ID, and this information is delivered to main frame, main frame will authenticate driver identification, and authentication is passed through, and door lock is opened automatically, acousto-optic hint is simultaneously removed antitheftly, and car can normally start.

2. cipher anti theft

When authorizing ID to leave car, transceiver does not receive the encrypted message of authorizing ID, and main frame is opening by testing circuit decision gate/window state as decision gate/window, and main frame sends alerting signal, reminds car door not shut; As decision gate/window is closed condition, and car door will automatically lock, and car light is two to be dodged once, and this moment, automobile was in anti-theft state.

3, antitheft work

A. illegally open car door

When vehicle was in anti-theft state, if there is the people to attempt illegally to open car door, main frame sent alerting signal, and vehicle will send sound and light alarm.

B. illegally start vehicle

When vehicle was in anti-theft state, if there is the people to attempt illegally to start vehicle, main frame sent alerting signal and oil-break, power-off signal, and at this moment, vehicle not only sends sound and light alarm, and remote-control cut-off oil circuit and circuit, forbids vehicle launch.

4, remove warning

Under alarm condition, have only the ID of mandate near vehicle, main frame sends the releasing alerting signal, and vehicle could be removed warning.

Claims

1, a kind of intelligent invisible remote-control alarm, it comprises feed circuit, it is characterized in that: further comprising to authorize ID, transmission circuit, testing circuit, governor circuit, several control circuit, sound light alarming circuit and stealthy control circuit; 11 pin of master chip U1 in 6,7 pin of high frequency receiver module M1 in the transmission circuit and the governor circuit are connected, 13 pin of master chip U1 in 3 pin of high-frequency emission module M2 and the governor circuit are connected, and 15 pin of the master chip U1 of the base stage of the triode T3 in the transmission circuit in resistance R 5 and governor circuit are connected; 42 pin of master chip U1 in collector series connection resistance R 1 back of triode T1 in the testing circuit and the governor circuit are connected; 20 pin of the master chip U1 of the base stage of triode T2 in the control circuit in resistance R 7 and governor circuit are connected to control antitheft parts; 44 pin of the master chip U1 of the base stage of triode T4 in the sound light alarming circuit in resistance R 10 and governor circuit are connected, and 16 pin of the master chip U1 of the base stage of the triode T5 in the sound light alarming circuit in resistance R 14 and governor circuit are connected; Stealthy control circuit is connected by wireless signal with governor circuit; Authorize ID to be connected by wireless mode with governor circuit.

2, intelligent invisible remote-control alarm according to claim 1, it is characterized in that: described governor circuit is made up of master chip U1 (MC9S08AW16), crystal oscillator Y1 and capacitor C 1, C11, C12,5,17,38 pin of master chip U1 (MC9S08AW16) with connect the 5V power supply, the other end ground connection of capacitor C 1 after an end of capacitor C 1 is connected; 6,18,39, the 28 pin ground connection of master chip U1 (MC9S08AW16), 21,22,23,24,25,26 pin of master chip U1 (MC9S08AW16) are connected with 1～6 pin of toggle switch S2,7,8 pin of master chip U1 (MC9S08AW16) are connected with the two ends of crystal oscillator Y1, the base stage of the triode T4 of 44 pin of master chip U1 (MC9S08AW16) in resistance R 10 and sound light alarming circuit is connected, and the base stage of the triode T5 of 16 pin of master chip U1 (MC9S08AW16) in resistance R 14 and sound light alarming circuit is connected; 20,30,31,32,33,34,35,36,37,43 pin of master chip U1 (MC9S08AW16) are connected with No. ten control circuits, realize the control to ten functions; 12,19,40,41,42 pin of master chip U1 (MC9S08AW16) connect testing circuit, detect the various states of automobile; 27,29 pin of master chip U1 (MC9S08AW16) connect the 5V power supply, 14 pin of master chip U1 (MC9S08AW16) are connected with the negative pole of the diode D2 of AND circuit, 13 pin of master chip U1 (MC9S08AW16) are connected with 3 pin of high-frequency emission module M2,15 pin of master chip U1 (MC9S08AW16) are connected with an end of resistance R 5, and 11 pin of master chip U1 (MC9S08AW16) are connected with 6,7 pin of high frequency receiver module M1; Be attempted by the two ends of crystal oscillator Y1 after capacitor C 11 and the C12 serial connection, the tie point ground connection of capacitor C 11 and C12.

3, intelligent invisible remote-control alarm according to claim 1 is characterized in that: described transmission circuit is made up of chip U2 (74HC4060), U3 (TC4422), high frequency receiver module M1, high-frequency emission module M2, triode T3, diode D2, D3, resistance R 4, R5, R6, R12, R13, capacitor C 2, C3, C4, C5, C13, C14, C15 and inductance L 1; 2,3, the 8 pin ground connection of high frequency receiver module M1,1 pin of high frequency receiver module M1 connects antenna, and 4,5 pin of high frequency receiver module M1 connect the 5V power supply, and 6,7 pin of high frequency receiver module M1 are connected with 11 pin of master chip U1 (MC9S08AW16); 1 pin of high-frequency emission module M2 connects antenna, the 2 pin ground connection of high-frequency emission module M2, and 3 pin of high-frequency emission module M2 are connected with 13 pin of master chip U1 (MC9S08AW16), and 4 pin of high-frequency emission module M2 connect the 5V power supply; High frequency receiver module M1 and high-frequency emission module M2 are embedded in the governor circuit in embedded mode; 11 pin of chip U2 (74HC4060) are connected with the end of crystal oscillator Y2, the other end serial connection capacitor C 13 back ground connection of crystal oscillator Y2, resistance R 12 and the two ends that are attempted by crystal oscillator Y2 after resistance R 13 is connected in series, the tie point of resistance R 12 and resistance R 13 is connected with 10 pin of chip U2 (74HC4060), one end of capacitor C 14 is connected with 11 pin of chip U2 (74HC4060), the other end ground connection of capacitor C 14,16 pin of chip U2 (74HC4060) are connected with the collector of triode T3, one end of capacitor C 15 is connected with the collector of triode T3, the other end ground connection of capacitor C 15, the emitter of triode T3 connects the 5V power supply, the base stage of triode T3 is connected with 15 pin of master chip U1 (MC9S08AW16) by resistance R 5, resistance R 6 is attempted by between the base stage and emitter of triode T3,5 pin of U2 (74HC4060) are connected with the negative pole of AND circuit diode D3, the positive pole of diode D3 is connected with 2 pin of chip U3 (TC4422), the negative pole of AND circuit diode D2 is connected with 14 pin of master chip U1 (MC9S08AW16), the positive pole of diode D2 is connected with 2 pin of chip U3 (TC4422), one end of resistance R 4 is connected with the positive pole of diode D2, another termination 5V power supply of resistance R 4, the 8 pin ground connection of U2 (74HC4060); 1 and 8 pin of chip U3 (TC4422) connect the 12V power supply, 6 of chip U3 (TC4422) is connected with the end of 7 pin with the inductance L 1 of LC oscillation circuit, the other end of inductance L 1 is connected with a end after capacitor C 3, C4, the C5 parallel connection, other end ground connection after capacitor C 3, C4, the C5 parallel connection, 4 and the 5 pin ground connection of chip U3 (TC4422), one termination 12V power supply of capacitor C 2, the other end ground connection of capacitor C 2.

4, intelligent invisible remote-control alarm according to claim 1, it is characterized in that: described control circuit is by triode T2, diode D4, relay J DQ10 and resistance R 7, R8 forms, the base stage of triode T2 is connected through 20 pin of resistance R 7 with master chip U1 (MC9S08AW16), the collector of triode T2 is connected with the positive pole of diode D4 and an end of relay J DQ10 coil, another termination 12V power supply of the negative pole of diode D4 and relay J DQ10 coil, the grounded emitter of triode T2, resistance R 8 is attempted by between the base stage and emitter of triode T2, and the contact of relay J DQ10 connects the power supply of automobile.

5, intelligent invisible remote-control alarm according to claim 1, it is characterized in that: described sound light alarming circuit is made up of triode T4, T5, resistance R 9, R10, R11, R14, R15 and loudspeaker U5, the base stage of triode T4 is connected through 44 pin of resistance R 10 with master chip U1 (MC9S08AW16), the collector of triode T4 is connected with car light through resistance R 9, the grounded emitter of triode T4, resistance R 11 are attempted by between the base stage and emitter of triode T4; The base stage of triode T5 is connected through 16 pin of resistance R 14 with master chip U1 (MC9S08AW16), the collector of triode T5 is connected with the end of loudspeaker U5, another termination 5V power supply of loudspeaker U5, the grounded emitter of triode T5, resistance R 15 is attempted by between the base stage and emitter of triode T5.

6, intelligent invisible remote-control alarm according to claim 1, it is characterized in that: described testing circuit is by triode T1, voltage stabilizing diode DW1, resistance R 1, R2, R3 and capacitor C 6 are formed, the base stage of triode T1 is connected with 6 pin of J2 interface through resistance R 2, collector series connection resistance R 1 back of triode T1 is connected with 42 pin of master chip U1 (MC9S08AW16), the negative pole of voltage stabilizing diode DW1 is connected with 42 pin of master chip U1 (MC9S08AW16), the plus earth of voltage stabilizing diode DW1, the grounded emitter of triode T1, resistance R 3 is attempted by between the base stage and emitter of triode T1, and capacitor C 6 is attempted by between the collector and emitter of triode T1.

7, intelligent invisible remote-control alarm according to claim 1, it is characterized in that: described feed circuit are made up of chip U4 (7805), diode D1 and capacitor C 7, C8, C9, C10, the positive pole of diode D1 connects the 12V power supply, the negative pole of diode D1 is connected with 1 pin of chip U4 (7805), the one end is connected other end ground connection with 1 pin of chip U4 (7805) to capacitor C 7 with C8 and after connecing; The 2 pin ground connection of chip U4 (7805), 5,17,38,27 of 3 pin of chip U4 (7805) and master chip U1 (MC9S08AW16) is connected 5V is provided power supply for master chip U1 (MC9S08AW16) with 29 pin, the one end is connected other end ground connection with 3 pin of chip U4 (7805) to capacitor C 9 with C10 and after connecing.

8, intelligent invisible remote-control alarm according to claim 1, it is characterized in that: described mandate ID circuit is by chip U6 (37122), U7 (F1232), triode T6, T7, wave filter R315, light emitting diode DG1, crystal oscillator Y3, resistance R 16, R17, R18, R19, R20, R21, capacitor C 16, C17, C18, C19, C20, C21, C22, C23, C24, C25, C26, C27, C28, C29, C30, C31 and inductance L 2, L3 forms, capacitor C 18, C19, C20 is connected with 3 pin of chip U6 (37122) with the LC oscillation circuit one end that inductance L 2 is formed, the other end is connected with 16 pin of chip U6 (37122), capacitor C 21, C22, C23 is connected with 14 pin of chip U6 (37122) with the LC oscillation circuit one end that inductance L 3 is formed, and the other end is connected with 16 pin of chip U6 (37122); Chip U6 (37122) 7,8,9,10,11 and 12 pin are connected with 12 pin with 23,22,21,11,13 of chip U7 (F1232) respectively, 2 pin of chip U6 (37122) and 6 pin and connect after meet power supply VCC, one termination power VCC of capacitor C 26, the other end ground connection of capacitor C 26; The base stage of triode T6 is connected with an end of resistance R 17 and 1 pin of wave filter R315, the other end of resistance R 17 is connected with 2 pin of wave filter R315 and 2 ends of inductance L 2,1 termination power VCC of inductance L 2,2 ends of inductance L 2 are connected with 1 end of inductance L 3,2 ends of inductance L 3 are connected with the collector of triode T6 and are connected with antenna by capacitor C 24, the emitter of triode T6 is connected with the collector of triode T7 and 3 pin of wave filter R315, capacitor C 25 is serially connected between 2 pin and 3 pin of wave filter R315, the base stage of triode T7 is connected the grounded emitter of triode T7 by resistance R 16 with 9 pin of chip U7 (F1232); Capacitor C 27 is with C28 and connect back one termination power VCC, its other end ground connection; Resistance R 18 is connected in series back one termination power VCC with capacitor C 29, its other end ground connection, and resistance R 18 is connected with 7 pin of chip U7 (F1232) with the tie point of capacitor C 29; Resistance R 19 is connected in series back one termination power VCC with resistance R 20,14 pin of its another chip termination U7 (F1232), and resistance R 19 is connected with 8 pin of chip U7 (F1232) with the tie point of resistance R 20; The positive pole of light emitting diode DG1 meets power supply VCC, and the negative pole of light emitting diode DG1 is connected with an end of resistance R 21, and the other end of resistance R 21 is connected with 10 pin of chip U7 (F1232); The end of crystal oscillator Y3 is connected with 5 pin of chip U7 (F1232), and the other end of crystal oscillator Y3 is connected with 6 pin of chip U7 (F1232), is attempted by the two ends of crystal oscillator Y3 after capacitor C 30 and the C31 serial connection, the tie point ground connection of capacitor C 30 and C31; 2 pin of chip U7 (F1232) meet power supply VCC, the 4 pin ground connection of chip U7 (F1232).

9, intelligent invisible remote-control alarm according to claim 1 is characterized in that: described stealthy control circuit is made up of chip U8 (MC9S08AW16), chip U9 (7805), triode T6, T7, diode D5, D6, LED, crystal oscillator Y4, resistance R 22, R23, R24, R25, R26, capacitor C 32, C33, C34, C35, C36, C37, C38, relay J DQ, transmitter module M3, receiver module M4, interface J4, J6, J7, power input mouth J5 and loudspeaker BELL; One end of the resistance R 25 in 24,25,26 pin of chip U8 (MC9S08AW16) and several control circuits is connected, the other end of resistance R 25 is connected with the base stage of triode T7, the collector of triode T7 is connected with an end of relay J DQ coil, another termination 12V power supply of relay J DQ coil, the grounded emitter of triode T7, resistance R 26 is attempted by between the base stage and emitter of triode T7, the positive pole of diode D6 is connected with the collector of triode T7, the negative pole of diode D6 connects the 12V power supply, and the contact of relay J DQ is connected with 1,3 pin of interface J4; 2 pin of chip U8 (MC9S08AW16) are connected through the base stage of resistance R 23 with triode T6, the collector of triode T6 is connected with the end of loudspeaker BELL, another termination 5V power supply of loudspeaker BELL, the grounded emitter of triode T6, resistance R 24 is attempted by between the base stage and emitter of triode T6, to send the tinkle of bells prompting; 23 pin of chip U8 (MC9S08AW16) are connected with an end of resistance R 22, and the other end of resistance R 22 is connected with the negative pole of LED, and the positive pole of LED connects the 5V power supply, to send light prompt; 7,8 pin of chip U8 (MC9S08AW16) are connected with the two ends of crystal oscillator Y4, are attempted by the two ends of crystal oscillator Y4 after capacitor C 36 and the C37 serial connection, the tie point ground connection of capacitor C 36 and C37; 3,5, the 21 pin ground connection of chip U8 (MC9S08AW16), 4,6,18,20 pin of chip U8 (MC9S08AW16) connect the 5V power supply, a termination 5V power supply of capacitor C 38, the other end ground connection of capacitor C 38; 15,16,17 pin of chip U8 (MC9S08AW16) connect program and download mouth; 9,10,11 pin of chip U8 (MC9S08AW16) are connected with 1,2,4 pin of interface J6; 1 pin of transmitter module M3 connects antenna, 2 pin ground connection, and 3 pin are connected with 27 pin of chip U8 (MC9S08AW16), and 4 pin connect the 5V power supply, are responsible for execution result is transmitted to main frame; 1 pin of receiver module M4 connects antenna, 2,3,8 pin ground connection, and 4,5 pin connect the 5V power supply, and 6,7 pin are connected with 32 pin of chip U8 (MC9S08AW16), are responsible for receiving the stealthy control command that main frame issues; Chip U9 (7805), diode D5 and capacitor C 32, C33, C34, C35 constitute feed circuit, the positive pole of diode D5 connects the 12V power supply, the negative pole of diode D5 is connected with 1 pin of chip U9 (7805), the 2 pin ground connection of chip U9 (7805), and 3 pin of chip U9 (7805) connect the 5V power supply; The one end is connected other end ground connection with 1 pin of chip U9 (7805) to capacitor C 32 with C33 and after connecing; The one end is connected other end ground connection with 3 pin of chip U9 (7805) to capacitor C 34 with C35 and after connecing; 1 pin of power input mouth J5 connects the 12V power supply, 2 pin ground connection; 3 pin of interface J6 connect the 5V power supply, 5 pin ground connection.