CN103150799B

CN103150799B - Transponder-free entrance guard controller of electrombile

Info

Publication number: CN103150799B
Application number: CN201310083315.2A
Authority: CN
Inventors: 林俊; 林枫; 程相权
Original assignee: HUAIAN GOLDEN HENG TAI TECHONOLY CO Ltd
Current assignee: HUAIAN GOLDEN HENG TAI TECHONOLY CO Ltd
Priority date: 2013-03-15
Filing date: 2013-03-15
Publication date: 2015-02-11
Anticipated expiration: 2033-03-15
Also published as: CN103150799A

Abstract

The invention discloses a transponder-free entrance guard controller of an electrombile. The entrance guard controller is composed of a circuit board arranged in a shell cavity and a buzzing piece, wherein the shell cavity is composed of an upper shell and a lower shell, 14 wires are led out, one of the 14 wires is led out from the side face of a shell, the 13 wires are led out from the lower side of the shell, and comprise 48 V power source wires, ground wires, electric door lock wires, electrical machine rotating detection wires and four 125 K antennas. According to the entrance guard controller provided by the invention, a technology of a PKE (passive keyless entry) system is applied to the electrombile, the cost is limited in a range capable of being afforded by common people, the service time of a transponder (handle) battery is longer, the identity verification adopts any manner to thoroughly realize no repeated code, and the users can learn in a safe, convenient and rapid manner.

Description

Electric motor car nonreply device gate inhibition prevention and control device

Technical field

The present invention relates to electric motor car nonreply device gate inhibition prevention and control device, by keyless gate inhibition system technology ( pKE) be organically incorporated in electric motor car with (RKE) remote annunciator.

Background technology

Development along with science and technology has promoted the renewal of product, automobile from original mechanical key start antitheft become remote control start antitheft.Keyless gate inhibition system ( pKE, Passive Keyless Entry) be remote access control system at RKE(RKE remote keyless entry) grow up on basis, the common remote annunciator used on the market now.PKE progressively develops as anti-theft technique of new generation, progressively enters field, middle-grade car market from superior automobile market at present.The top configuration of intermediate car all have employed keyless gate inhibition system, and the facility that it brings and safety have been easily accepted by a user and have approved.When driver is when the induction region of PKE system, as long as the hand of driver touches door handle, the PKE responder system that driver carries carries out identification, can receive the low frequency signal that automobile sends.If this signal is consistent with the identity identification information preserved in transponder, transponder will be waken up.This process can prevent random noise or other undesired signals from waking transponder up, extending battery life.On transponder, antenna input circuit can ensure in office where potential energy detects the wake-up signal that automobile base station sends to transponder.Transponder is waken up will analyze the authenticate password that sends of automobile, and sends corresponding signal, these signals through encryption, to improve security.The information that automobile is preserved with automotive interior is to received signal compared, and if the verification passes, automobile will open car door lock.Once driver into the car, only need simply to click start key, motor car engine will start.Driver is when button, and first PKE system needs to detect transponder device whether in car, just understands starting engine after then completing same verification process.When driver leaves automobile.Car door will be locked, and automobile, before real locking, will detect the position of driver equally, and through same proof procedure.The electronic responder that PKE system is joined also can use as telepilot, thus realizes long-distance remote control function.PKE is because its principle of work is completely different or contrary from RKE.Main frame (base station) adopts active working method, and its behavior does not rely on the instruction of electronic responder, when car door will be locked less than during intelligent responder by Host Detection automatically.Leave in the process of automobile car owner, if the signal of Host Detection transponder has been subject to co-channel interference, main frame has just thought transponder not in effective range, locks a door and enters armed state.

The functional realiey mode of PKE and Consumer's Experience aspect, PKE has absolute advantage than RKE, and all need to click telepilot before using the user of RKE to unblank at every turn and lock, PKE does not then need any operation completely; From principle, in security, the two-way communication authentication mode of PKE is obviously safer, this mode greatly reduces by the possibility of cutting code, crack, particularly in anti-interference, RKE is easy to cannot normally work because being subject to co-channel interference, and PKE door when being subject to co-channel interference can be in locking state always, thus ensure that the property safety of user.

More and more universal along with electric motor car, people popularly to be changed to personalization by original, by originally economical and practical, change to the quick direction of safety and comfort.How by the technology of keyless gate inhibition system (PKE), perfect application in electric motor car, that will bring once technical revolution for electric vehicle anti-theft.Industry has done unremitting effort for this reason.For this phenomenon, had bidirectional remote control alarm, namely main frame and handle not only receive but also launch.Handle has several milliamperes of electric currents in continuous discharge.Handle battery with less than one month, Jiu Yaohuan.User has used a period of time, just he is laid aside and neglected.Adopt lithium battery as handle battery.Consider discharge and recharge, battery capacity, volume size etc.Which limit his development.Remote-control theftproof system (RKE) substitute by keyless gate inhibition system (PKE).Become inexorable trend.

Traditional RKE remote access control system (remote annunciator): 1, the repetition rate of coding is high, and code value is easily cracked or copies, and gives the opportunity of lawless person; 2, handle (transmitter) battery is short; 3, operation is intelligent not, is all user's active operation; 4, the mode of setting up defences is entered single; 5, warning tone is single, inadequate hommization.

Summary of the invention

The object of the invention is to: a kind of electric motor car nonreply device gate inhibition prevention and control device is provided, the technology of PKE keyless gate inhibition system is applied in electric motor car, its cost control is in the scope that common people bear, transponder (handle) service time of battery is elongated, which kind of mode identity validation adopts, realize, thoroughly without repeated code, letting user experiencing safe, convenient and swift.

Technical solution of the present invention is: install wiring board in the shell chamber be made up of upper shell and lower house and piezo forms gate inhibition's prevention and control device, draw 14 lines altogether, wherein draw an antenna from housing side, on the downside of housing, draw 13 lines, comprise 48V power lead, ground wire, electric switch locking wire, electric machine rotation detection line and 4 125K antennas; Wherein, on wiring board, the connection of each electronic devices and components is as follows:

power module:48V power lead connects the positive pole of diode D1, the negative pole of diode D1 forms node and has 2 branch roads, 1 branch road meets network label V+, one end of 2 branch road connecting resistance R1, the other end of resistance R1 forms node and has 3 branch roads, 1 branch road is connected with the collector of triode Q1, 2 branch roads are connected with one end of resistance R4, 3 branch roads are connected with one end of resistance R51, the other end of resistance R51 forms node and has 4 branch roads, 1 branch road is connected with one end of electric capacity C3, 2 branch roads are connected with the negative pole of voltage stabilizing diode ZD3, 3 branch roads are connected with the resistance R4 other end, 4 branch roads are connected with the base stage of triode Q1, the other end ground connection of electric capacity C3, the plus earth of voltage stabilizing diode ZD3, the emitter-base bandgap grading of triode Q1 forms node and has 5 branch roads, 1 branch road is connected with network label 12V, 2 branch roads are connected with one end of resistance R52, 3 branch roads are connected with one end of electric capacity C4, 4 branch roads are connected with the positive pole of electrochemical capacitor C6, 5 branch roads are connected with the input pin of three-terminal voltage-stabilizing pipe 78L05 U1, the other end ground connection of resistance R52, the other end ground connection of electric capacity C4, the minus earth of electrochemical capacitor C6, the 2 pin ground connection of three-terminal voltage-stabilizing pipe 78L05 U1, the output pin of three-terminal voltage-stabilizing pipe 78L05 U1 forms node and has 2 branch roads, and it is smart benchmark 5V, 1 branch road is connected with the positive pole of electrochemical capacitor C2,2 branch roads are connected with one end of electric capacity C5, the minus earth of electrochemical capacitor C2, the other end ground connection of electric capacity C5,

start-up circuit module:one end of the 11 pin connecting resistance R76 of single-chip microcomputer U3, the other end of resistance R76 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R73,2 branch roads connect one end of switch S 5,3 branch roads connect start line wire hole, another termination 5V of resistance R73, the other end ground connection of switch S 5;

halt circuit module:one end of the 12 pin connecting resistance R75 of single-chip microcomputer U3, the other end of resistance R75 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R74,2 branch roads connect one end of switch S 6,3 branch roads connect stop line wire hole, another termination 5V of resistance R74, the other end ground connection of switch S 6;

gating circuit module:one end of the 6 pin connecting resistance R78 of single-chip microcomputer U3, the other end of resistance R78 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R72,2 branch roads connect one end of switch S 4,3 branch roads connect gate line wire hole, another termination 5V of resistance R72, the other end ground connection of switch S 4;

brake control circuit module:one end of the 22 pin connecting resistance R71 of single-chip microcomputer U3, the other end of resistance R71 forms node and has 2 branch roads, one end of 1 branch road connecting resistance R70,2 branch roads connect the positive pole of diode D7, the other end of another termination 5V of resistance R70, diode D7 forms node and has 2 branch roads, and 1 branch road connects one end of switch S 3,2 branch roads connect brake cable wire hole, the other end ground connection of switch S 3;

low level lock motor signal output module:the base stage of another termination triode Q4 of the 2 pin connecting resistance R17 of single-chip microcomputer U3, resistance R17, the grounded emitter of Q4, one end of the collector connecting resistance R13 of Q4, another termination low level wire hole of resistance R13;

learning circuit module:14 pin of single-chip microcomputer U3 form node and have 2 branch roads, one end of 1 branch road connecting resistance R20, and 2 branch roads connect one end of switch S 2, another termination 5V of resistance R20, the other end ground connection of switch S 2;

alert status indicating module:one end of the 25 pin connection circuit resistance R18 of single-chip microcomputer U3, another termination triode Q11 base stage of resistance R18, the grounded emitter of triode Q11, the negative pole of the collector sending and receiving optical diode LED1 of triode Q11, one end of the positive pole connecting resistance R19 of LED 1, another termination 5V of resistance R19, the 7 pin ground connection of single-chip microcomputer U3, the 8 pin ground connection of single-chip microcomputer U3, the 9 pin ground connection of single-chip microcomputer U3, the 17 pin ground connection of single-chip microcomputer U3, the 18 pin ground connection of single-chip microcomputer U3, the 19 pin ground connection of single-chip microcomputer U3, 20 pin of single-chip microcomputer U3 meet 5V, electric capacity C15 mono-termination 5V, the other end ground connection of electric capacity C15,

program online burning module:1 pin of programming port P1 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R15,2 branch roads connect one end of electric capacity C14,3 branch roads connect 1 pin of single-chip microcomputer U3, the other end ground connection of another termination 5V of resistance R15, electric capacity C14,2 pin of programming port P1 meet 5V, the 3 pin ground connection of programming port P1,14 pin that 4 pin of programming port P1 meet single-chip microcomputer U3 are connected, and 5 pin of programming port P1 connect 13 pin of single-chip microcomputer U3;

voice control circuit module:the label of speech chip A9142 is U6, one end of the 1 pin connecting resistance R62 of speech chip U6, another termination 3.6V of resistance R62, one end of the 2 pin connecting resistance R60 of speech chip U6, the other end of resistance R60 connects 28 pin of single-chip microcomputer U3, one end of the 3 pin connecting resistance R61 of speech chip U6, the other end of resistance R61 connects 27 pin of single-chip microcomputer U3, one end of the 4 pin connecting resistance R65 of speech chip U6, 5 pin of speech chip U6 meet 3.6V, the 6 pin ground connection of speech chip U6, 7 pin of speech chip U6 form node and have 2 branch roads, one end of 1 branch road connecting resistance R63, 2 branch roads connect the collector of triode Q16, 8 pin of speech chip U6 meet 3.6V, another termination 3.6V of resistance R63, the grounded emitter of triode Q16, one end of the base stage connecting resistance R64 of triode Q16, the other end of resistance R64 connects 26 pin of single-chip microcomputer U3, the one termination 3.6V of electric capacity C45, the other end ground connection of electric capacity C45:

sound pronunciation circuit module:the other end of resistance R65 forms node and has 2 branch roads, one end of 1 branch road connecting resistance R66, 2 branch roads connect one end of electric capacity C47, the other end ground connection of resistance R66, the other end of electric capacity C47 forms node and has 2 branch roads, 1 branch road connects the base stage of triode Q17, one end of 2 branch road connecting resistance R67, the grounded emitter of triode Q17, the collector of triode Q17 forms node and has 3 branch roads, 1 branch road connects the base stage of triode Q18, 2 branch roads connect the base stage of triode Q19, one end of 3 branch road connecting resistance R68, the other end of resistance R67 forms node and has 3 branch roads, 1 branch road connects the emitter of triode Q18, 2 branch roads connect the emitter of triode Q19, 3 branch roads connect the positive pole of electrochemical capacitor C48, the other end of resistance R68 forms node and has 2 branch roads, one end of 1 branch road connecting resistance R69, 2 branch roads connect the collector of triode Q19, another termination V+ of resistance R69, the grounded collector of triode Q18, the negative pole of electrochemical capacitor C48 connects one end of transformer T1 primary coil, the other end ground connection of transformer T1 primary coil, the wiring holes SP1 of one termination piezo of transformer T1 secondary coil, the wiring holes SP2 of another termination piezo of transformer T1 secondary coil,

electric door lock testing circuit module:4 pin of single-chip microcomputer U3 form node and have 3 branch roads, one end of 1 branch road connecting resistance R23, and 2 branch roads connect one end of electric capacity C16; 3 branch roads connect the negative pole of voltage stabilizing diode ZD2; the other end ground connection of resistance R23, the other end ground connection of electric capacity C16, the positive pole of voltage stabilizing diode ZD3 connects electric switch locking wire 1;

electric door lock control circuit module:electric switch locking wire 1 forms node and has 2 branch roads, 1 branch road connects one end of electric door lock switch S I, the normally closed contact of 2 branch road contact relay K2, the other end of electric door lock switch S 1 forms node and has 2 branch roads, 1 branch road meets network label 48V, the normally opened contact of 2 branch road contact relay K2, network label V+ forms node and has 2 branch roads, one end of 1 branch road contact relay K2 coil, 2 branch roads connect the negative pole of diode D10, the positive pole of diode D10 forms node and has 2 branch roads, the other end of 1 branch road contact relay K2 coil, one end of 2 branch road connecting resistance R22, the collector of another termination triode Q6 of resistance R22, the grounded emitter of triode Q6, the base stage of triode Q6 is connected with one end of resistance R25, the other end of resistance R25 is connected with 23 pin of single-chip microcomputer U3, electric switch locking wire 2 forms node and has 2 branch roads, the normally closed contact of 1 branch road contact relay K2, 2 branch roads connect the negative pole of diode D11, the positive pole of diode D11 connects the collector of triode Q5, one end of the emitter connecting resistance R24 of triode Q5, the other end of resistance R24 forms node and has 2 branch roads, 1 branch road meets network label 48V, one end of 2 branch road connecting resistance R26, the other end of resistance R26 forms node and has 2 branch roads, 1 branch road connects the base stage of triode Q5, one end of 2 branch road connecting resistance R27, the collector of another termination triode Q7 of resistance R27, the grounded emitter of triode Q7, one end of the base stage connecting resistance R28 of triode Q7, the resistance R28 other end connects 16 pin of single-chip microcomputer U3,

centrally controrlled locking system circuit module:one end of the 10 pin connecting resistance R12 of single-chip microcomputer U3, the base stage of another termination triode Q2 of resistance R12, the grounded emitter of triode Q2, one end of the collector connecting resistance R56 of triode Q2, the other end of resistance R56 forms node and has 2 branch roads, 1 branch road connects the positive pole of diode D5, the coil 1 of 2 branch road contact relay K4, the coil 2 of the other end contact relay K4 of diode D5, the normally closed contact of relay K 4 meets network label VCC, the normally opened contact of relay K 4 forms node and has 3 branch roads, 1 branch road connects centrally controrlled locking system line, 2 branch roads connect the negative pole of diode D21, 3 branch roads connect one end of inductance DL, the plus earth of diode D21, the other end ground connection of inductance DL,

superregeneration 315M receiving circuit module:antenna TX wiring hole forms node and has 3 branch roads, 1 branch road connects one end of inductance L 6, 2 branch roads connect one end of electric capacity C34, 3 branch roads connect one end of electric capacity C33, the other end ground connection of inductance L 6, the other end ground connection of electric capacity C34, the other end of electric capacity C33 forms node and has 2 branch roads, 1 branch road connects the base stage of triode Q9, one end of 2 branch road connecting resistance R37, the grounded emitter of triode Q9, the collector of triode Q9 forms node and has 2 branch roads, one end of 1 branch resistance R35, 2 branch roads connect one end of electric capacity C31, the other end of resistance R35 forms node and has 2 branch roads, the other end of 1 branch road connecting resistance R37, one end of 2 branch road connecting resistance R33, another termination 5V of resistance R33, the other end of electric capacity C31 forms node and has 4 branch roads, 1 branch road connecting resistance R41 one end, 2 branch roads connect electric capacity C26 one end, 3 branch roads connect one end of inductance L 5, one end of 4 branch road connecting resistance R39, the other end ground connection of resistance R41, one end of another termination capacitor C32 of resistance R39, the other end of electric capacity C26 forms node and has 4 branch roads, one end of 1 branch road contact resistance R45, the base stage of 2 branch road connecting triode Q8, one end of 3 branch road contact resistance R31, 4 branch roads connect one end of electric capacity C25, the other end ground connection of resistance R45, another termination 5V of resistance R31, the other end of electric capacity C25 forms node and has 2 branch roads, 1 branch road connects one end of electric capacity C22, 2 branch roads connect one end of controllable impedance L3, the other end of controllable impedance L3 forms node and has 4 branch roads, one end of 1 branch road connecting resistance R30, 2 branch roads connect the other end of electric capacity C22, 3 branch roads connect the collector of triode Q8, 4 branch roads connect one end of electric capacity C27, another termination 5V of resistance R30, the other end of electric capacity C27 forms node and has 2 branch roads, 1 branch road connects the other end of inductance L 5, 2 branch roads connect the emitter of triode Q8, the other end of electric capacity C32 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R43, 2 branch roads connect one end of electric capacity C35, 3 branch roads connect 12 pin of chip LM324 U2, the other end ground connection of resistance R43, the other end ground connection of electric capacity C35, 13 pin of chip LM324 U2 form node and have 2 branch roads, one end of 1 branch road connecting resistance R44, one end of 2 branch road connecting resistance R42, the other end ground connection of resistance R44, the other end of resistance R42 forms node and has 2 branch roads, 1 branch road is connected to 14 pin of chip LM324 U2, 2 branch roads are connected to one end of electric capacity C30, the other end of electric capacity C30 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R38, one end of 2 branch road connecting resistance R40, 3 branch roads connect 10 pin of chip LM324 U2, the other end of resistance R38 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R46, one end of 2 branch road connecting resistance R32, 3 branch roads are connected with 9 pin of chip LM324 U2, the other end ground connection of resistance R46, another termination 5V of resistance R32, the other end of resistance R40 forms node and has 2 branch roads, 1 branch road connects 8 pin of chip LM324 U2, one end of 2 branch road connecting resistance R36, the other end of resistance R36 connects 3 pin of single-chip microcomputer U3, the one termination 5V of electric capacity C23, other end ground connection, the one termination 5V of electric capacity C124, other end ground connection, the positive pole of electrochemical capacitor C26 meets 5V, , the minus earth of electrochemical capacitor C26, 4 pin of chip LM324 U2 meet 5V, the 11 pin ground connection of chip LM324 U2,

125K radiating portion circuit module:one road 125K radiating portion connects, the label of chip TM6389 is U4, 2 pin of chip TM6389 U4 form node and have 2 branch roads, one end of 1 branch road connecting resistance R29, 2 branch roads connect 4 pin of chip TM6389 U4, the other end of resistance R29 connects 15 pin of single-chip microcomputer U3, the 3 pin ground connection of chip TM6389 U4, 5 pin of chip TM6389 U4 connect one end of 125K-A antenna, 6 pin of chip TM6389 U4 form node and have 2 branch roads, 1 branch road meets+12V, 2 branch roads connect one end of electric capacity C17, the other end ground connection of electric capacity C17, 7 pin of chip TM6389 U4 connect the other end of 125K-A antenna, another road 125K radiating portion connects, the label of chip TM6389 is U5,2 pin of chip TM6389 U5 form node and have 2 branch roads, one end of 1 branch road connecting resistance R34,2 branch roads connect 4 pin of chip TM6389 U5, the other end of resistance R34 connects 13 pin of single-chip microcomputer U3, the 3 pin ground connection of U5,5 pin of U5 connect one end of 125K-B antenna, 6 pin of chip TM6389 U5 form node and have 2 branch roads, 1 branch road meets+12V, 2 branch roads connect one end of electric capacity C20, the other end ground connection of electric capacity C20, and 7 pin of chip TM6389 U5 connect the other end of 125K-B antenna,

shock detection module:the negative pole of vibrations inductance L 1 one termination electrochemical capacitor C9, other end ground connection, the positive pole of electrochemical capacitor C9 forms node and has 4 branch roads, 1 branch road connects one end of electric capacity C11, 2 branch roads connect one end of electric capacity C8, 3 branch roads connect 6 pin of chip LM324 U2, one end of 4 branch road connecting resistance R2, the other end ground connection of electric capacity C11, the other end of electric capacity C8 forms node and has 3 branch roads, 1 branch road connects the positive pole of diode D4, one end of 2 branch road connecting resistance R3, 3 branch roads connect 5 pin of chip LM324 U2, the minus earth of diode D4, another termination 5V of resistance R3, the other end of resistance R2 forms node and has 2 branch roads, 1 branch road connects 7 pin of chip LM324 U2, 2 branch roads connect the positive pole of diode D3, the negative pole of diode D3 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R9, 2 branch roads connect one end of electric capacity C10, 3 branch roads connect 3 pin of chip LM324 U2, the other end ground connection of resistance R9, the other end ground connection of electric capacity C10, 2 pin of chip LM324 U2 form node and have 2 branch roads, 1 branch road connecting resistance R6 one end, 2 branch road connecting resistance R10 one end, another termination 5V of resistance R6, the other end ground connection of resistance R10, one end of the 1 pin connecting resistance R7 of chip LM324 U2, the other end of resistance R7 connects 21 pin of single-chip microcomputer U3,

phase line detection module:one end of the 5 pin resistance R57 of single-chip microcomputer U3, the other end of resistance R57 forms node and has 2 branch roads, one end of 1 branch road connecting resistance R59, 2 branch roads connect the collector of triode Q15, another termination 5V of resistance R59, the emitter grounding of triode Q15, one end of the base stage connecting resistance R58 of triode Q15, the other end of resistance R58 forms node and has 4 branch roads, 1 branch road connects the negative pole of voltage stabilizing diode ZD1, one end of 2 branch road connecting resistance R8, 3 branch roads connect one end of electric capacity C36, one end of 4 branch road connecting resistance R5, the plus earth of voltage stabilizing diode ZD1, the other end ground connection of resistance R8, the other end ground connection of electric capacity C36, another terminal network label " phase line " of resistance R5.

This practicality newly has the following advantages:

1. multiple triggering identity validation:

1) automated manner; Main frame (base station) adopts to be sent out 125K and inquires about a ripple, and coverage 3 meters wakes handle (transponder) up, if handle (transponder) is in its coverage, UHF(315M sent out by transponder) frequency carries out real-time communication to main frame; If 125K sent out by main frame inquire about ripple, nonreply device handshake, its main frame enters corresponding operation of setting up defences.

2) manual mode; By door control unit (user's trigger gate switch), start and send out 125K inquiry ripple, carry out identity validation.

3) handle twice electric start key is pressed at family continuously, automatically switches on power, opens electric lock again, both facilitated, again safety without the need to user with key, can realize remote electricity and start.

2. battery saving mode: by door control unit (user's trigger gate switch), starts a 125K inquiry ripple and carries out identity validation; Want continual 125K to inquire about ripple after main frame (base station) starts, handle (transponder) need constantly be replied, the electric energy of dissipate limited (transponder); Open electric lock as long as have employed with key, send out 125K with regard to Shutdown Hosts (base station) and inquire about ripple; Whether transponder opens electric lock or cuts out electric lock, detect wheel and rotate, and rotate main frame and do not send out 125K inquiry ripple, handle (transponder) is in sleep state; Do not rotate, send out 125K and inquire about ripple, carry out mutually deserved operation.

The alarm of 3.PKE is without repetition code value: main frame (base station) and transponder adopt 125K communication key agreement, rolling code is adopted when sending code value, scrambler detects key-press input, synchronous numeration adds 1, after key encryption, form encrypt data together with sequence number, and send with data such as key assignments; Because synchronometer numerical value sends all different, even same button is repeatedly pressed no exception at every turn; The automatic rolls forward of synchronous counting, the code word of transmission no longer occurs; Synchronous counting is with scrambler sequence number one 64 together through des encryption, and DES key is that meeting man of factory is exclusive, and must maintain secrecy, the ciphertext after encryption is then launched by radio system.

4. high-decibel warning function: high-decibel is reported to the police and played warning function, and burglar dare not be set about.

5. exempt from key start-up performance: if user transponder near main frame (base station) send out 125K inquiry ripple scope in, PKE open; Or press handle twice electric start key continuously, automatically switch on power, open electric lock with transponder again without the need to user, both facilitated, again safety, remote electricity can be realized and start.

6. adjustment of sensitivity: sensitivity five grades of telepilots are adjustable, facilitates car owner's environmentally free adjustment warning sensitivity, greatly facilitates car owner, embody humanization design concept.

7. power down function: this PKE (Keyless door taboo) is when setting up defences warning, disconnect and start power supply, and send the alarm sound of high-decibel, both there is fright effect, make again burglar have no way of doing it, when exempting from transponder electricity and starting, available free key is removed, operate more intelligent, more convenient user uses.

8. open electric door lock function by force: when handle button is set up defences, electric lock opened by transponder, alarm host machine can think that disabled user opens electric lock, and sends the alarm sound of high-decibel, has fright effect, and available free key is removed.

9. phonetic function: intelligent sound function, reports " setting up defences ", " set up defences and remove ", " I here ", the voice such as " not touching me " and the report of electric motor car brand, make user feel more warm, and phonetic function and common warning function can arbitrarily switch, embody human oriented design.

10. alert status deixis: when PKE prevention and control device enters alert status, emitting ledly dodged once every one second, represented in alert status.

11. 1 keys start a key and stop: after identity validation, touch START key, just can intelligent starting electric machine rotation; Need under steam to slam brake, speed per hourly pins STOP key lower than 5 kilometers, enters powered-down link.

12. field intensity sensibilities regulate: the radical increasing or reduce 125K emitting antenna, carry out time division emission inquiry ripple, confirm according to user identity corresponding speed; The radical of antenna is many, and detect sensitive height, transponder more reliably works, and can make up the directive problem of tool of receiving antenna equally.

Accompanying drawing explanation

Fig. 1 is circuit theory diagrams of the present invention.

Fig. 2 is line graph of the present invention.

Embodiment

As shown in Figure 1, 2, wiring board is installed in the shell chamber be made up of upper shell and lower house and piezo forms gate inhibition's prevention and control device, draw 14 lines altogether, wherein draw an antenna from housing side, on the downside of housing, draw 13 lines, comprise 48V power lead, ground wire, electric switch locking wire, electric machine rotation detection line and 4 125K antennas; Wherein, on wiring board, the connection of each electronic devices and components is as follows:

power module:48V power lead connects the positive pole of diode D1, the negative pole of diode D1 forms node and has 2 branch roads, 1 branch road meets network label V+, one end of 2 branch road connecting resistance R1, the other end of resistance R1 forms node and has 3 branch roads, 1 branch road is connected with the collector of triode Q1, 2 branch roads are connected with one end of resistance R4, 3 branch roads are connected with one end of resistance R51, the other end of resistance R51 forms node and has 4 branch roads, 1 branch road is connected with one end of electric capacity C3, 2 branch roads are connected with the negative pole of voltage stabilizing diode ZD3, 3 branch roads are connected with the resistance R4 other end, 4 branch roads are connected with the base stage of triode Q1, the other end ground connection of electric capacity C3, the plus earth of voltage stabilizing diode ZD3, the emitter-base bandgap grading of triode Q1 forms node and has 5 branch roads, 1 branch road is connected with network label 12V, 2 branch roads are connected with one end of resistance R52, 3 branch roads are connected with one end of electric capacity C4, 4 branch roads are connected with the positive pole of electrochemical capacitor C6, 5 branch roads are connected with the input pin of three-terminal voltage-stabilizing pipe 78L05 U1, the other end ground connection of resistance R52, the other end ground connection of C4, the minus earth of electrochemical capacitor C6, the 2 pin ground connection of three-terminal voltage-stabilizing pipe 78L05 U1, the output pin of three-terminal voltage-stabilizing pipe 78L05 U1 forms node and has 2 branch roads, and it is smart benchmark 5V, 1 branch road is connected with the positive pole of electrochemical capacitor C2,2 branch roads are connected with one end of electric capacity C5, the minus earth of electrochemical capacitor C2, the other end ground connection of electric capacity C5,

Claims

1. electric motor car nonreply device gate inhibition prevention and control device, wiring board is installed in the shell chamber be made up of upper shell and lower house and piezo forms gate inhibition's prevention and control device, draw 14 lines altogether, wherein draw an antenna from housing side, on the downside of housing, draw 13 lines, comprise 48V power lead, ground wire, electric switch locking wire, electric machine rotation detection line and 4 125K antennas; Wherein, on wiring board, the connection of each electronic devices and components is as follows:

low level lock motor signal output module:the base stage of another termination triode Q4 of the 2 pin connecting resistance R17 of single-chip microcomputer U3, resistance R17, the grounded emitter of triode Q4, one end of the collector connecting resistance R13 of triode Q4, another termination low level wire hole of resistance R13;

voice control circuit module:the label of speech chip A9142 is U6, one end of the 1 pin connecting resistance R62 of speech chip U6, another termination 3.6V of resistance R62, one end of the 2 pin connecting resistance R60 of speech chip U6, the other end of resistance R60 connects 28 pin of single-chip microcomputer U3, one end of the 3 pin connecting resistance R61 of speech chip U6, the other end of resistance R61 connects 27 pin of single-chip microcomputer U3, one end of the 4 pin connecting resistance R65 of speech chip U6, 5 pin of speech chip U6 meet 3.6V, the 6 pin ground connection of speech chip U6, 7 pin of speech chip U6 form node and have 2 branch roads, one end of 1 branch road connecting resistance R63, 2 branch roads connect the collector of triode Q16, 8 pin of speech chip U6 meet 3.6V, another termination 3.6V of resistance R63, the grounded emitter of triode Q16, one end of the base stage connecting resistance R64 of triode Q16, the other end of resistance R64 connects 26 pin of single-chip microcomputer U3, the one termination 3.6V of electric capacity C45, the other end ground connection of electric capacity C45,

electric door lock testing circuit module:4 pin of single-chip microcomputer U3 form node and have 3 branch roads, one end of 1 branch road connecting resistance R23, and 2 branch roads connect one end of electric capacity C16,3 branch roads connect the negative pole of voltage stabilizing diode ZD2, the other end ground connection of resistance R23, the other end ground connection of electric capacity C16, the positive pole of voltage stabilizing diode ZD3 connects electric switch locking wire 1;

superregeneration 315M receiving circuit module:antenna TX wiring hole forms node and has 3 branch roads, 1 branch road connects one end of inductance L 6, 2 branch roads connect one end of electric capacity C34, 3 branch roads connect one end of electric capacity C33, the other end ground connection of inductance L 6, the other end ground connection of electric capacity C34, the other end of electric capacity C33 forms node and has 2 branch roads, 1 branch road connects the base stage of triode Q9, one end of 2 branch road connecting resistance R37, the grounded emitter of triode Q9, the collector of triode Q9 forms node and has 2 branch roads, one end of 1 branch resistance R35, 2 branch roads connect one end of electric capacity C31, the other end of resistance R35 forms node and has 2 branch roads, the other end of 1 branch road connecting resistance R37, one end of 2 branch road connecting resistance R33, another termination 5V of resistance R33, the other end of electric capacity C31 forms node and has 4 branch roads, 1 branch road connecting resistance R41 one end, 2 branch roads connect electric capacity C26 one end, 3 branch roads connect one end of inductance L 5, one end of 4 branch road connecting resistance R39, the other end ground connection of resistance R41, one end of another termination capacitor C32 of resistance R39, the other end of electric capacity C26 forms node and has 4 branch roads, one end of 1 branch road contact resistance R45, the base stage of 2 branch road connecting triode Q8, one end of 3 branch road contact resistance R31, 4 branch roads connect one end of electric capacity C25, the other end ground connection of resistance R45, another termination 5V of resistance R31, the other end of electric capacity C25 forms node and has 2 branch roads, 1 branch road connects one end of electric capacity C22, 2 branch roads connect one end of controllable impedance L3, the other end of controllable impedance L3 forms node and has 4 branch roads, one end of 1 branch road connecting resistance R30, 2 branch roads connect the other end of electric capacity C22, 3 branch roads connect the collector of triode Q8, 4 branch roads connect one end of electric capacity C27, another termination 5V of resistance R30, the other end of electric capacity C27 forms node and has 2 branch roads, 1 branch road connects the other end of inductance L 5, 2 branch roads connect the emitter of triode Q8, the other end of electric capacity C32 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R43, 2 branch roads connect one end of electric capacity C35, 3 branch roads connect 12 pin of chip LM324 U2, the other end ground connection of resistance R43, the other end ground connection of electric capacity C35, 13 pin of chip LM324 U2 form node and have 2 branch roads, one end of 1 branch road connecting resistance R44, one end of 2 branch road connecting resistance R42, the other end ground connection of resistance R44, the other end of resistance R42 forms node and has 2 branch roads, 1 branch road is connected to 14 pin of chip LM324 U2, 2 branch roads are connected to one end of electric capacity C30, the other end of electric capacity C30 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R38, one end of 2 branch road connecting resistance R40, 3 branch roads connect 10 pin of chip LM324 U2, the other end of resistance R38 forms node and has 3 branch roads, one end of 1 branch road connecting resistance R46, one end of 2 branch road connecting resistance R32, 3 branch roads are connected with 9 pin of chip LM324 U2, the other end ground connection of resistance R46, another termination 5V of resistance R32, the other end of resistance R40 forms node and has 2 branch roads, 1 branch road connects 8 pin of chip LM324 U2, one end of 2 branch road connecting resistance R36, the other end of resistance R36 connects 3 pin of single-chip microcomputer U3, the one termination 5V of electric capacity C23, other end ground connection, the one termination 5V of electric capacity C124, other end ground connection, the positive pole of electrochemical capacitor C26 meets 5V, the minus earth of electrochemical capacitor C26, 4 pin of chip LM324 U2 meet 5V, the 11 pin ground connection of chip LM324 U2,