CN103576591B - Remote control rolling code intelligent anti-theft controller - Google Patents
Remote control rolling code intelligent anti-theft controller Download PDFInfo
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- CN103576591B CN103576591B CN201310559117.9A CN201310559117A CN103576591B CN 103576591 B CN103576591 B CN 103576591B CN 201310559117 A CN201310559117 A CN 201310559117A CN 103576591 B CN103576591 B CN 103576591B
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Abstract
The invention discloses remote control rolling code intelligent anti-theft controller, this controller comprises main frame and remote-control handle, and wiring board and buzzing sheet formation main frame are installed in shell chamber, and wiring board and button formation remote-control handle are installed in shell chamber; The present invention adopts hopping code, before transmission code, with rolling code AES, source code is carried out to non-linear encryption, thereby produce highly confidential rolling code, it is all unique making the code of each transmission, never repeat, not only safe and reliable but also convenient, make the means of seizure and scan tracing all be difficult to gather effect.
Description
Technical field
The present invention relates to controller, be specifically related to a kind of remote control rolling code intelligent anti-theft controller.
Background technology
Traditional regular coding is the security system based on one-way transmission; limited protection can only be provided; because being the length by improving code, the confidentiality of this system realizes; and the length of code is limited; thereby can only obtain limited code combination; just be easy to obtain code by the way of aerial seizure and scan tracing, so just used without authorization by disabled user, greatly reduce the security of electric vehicle.
Summary of the invention
The object of the invention is to: a kind of remote control rolling code intelligent anti-theft controller is provided, adopt hopping code, before transmission code, with rolling code AES, source code is carried out to non-linear encryption, thereby produce highly confidential rolling code, it is all unique making the code of each transmission, never repeat, not only safe and reliable but also convenient, make the means of seizure and scan tracing all be difficult to gather effect.
Technical solution of the present invention is: this controller comprises main frame and remote-control handle, and wiring board and buzzing sheet formation main frame are installed in shell chamber, and wiring board and button formation remote-control handle are installed in shell chamber; Main frame is drawn 6 lines altogether, has antenna, lock front, connects wires, locks rear line, electric machine rotation detection line and lock motor holding wire, and on the wiring board of main frame, the connection of each electronic devices and components is as follows:
Power module:60V power line connects the positive pole of diode D6, and the negative pole of D6 forms node, and 1 branch road meets network label V+, one end of 2 branch road connecting resistance R36, and the other end of R36 forms node, and the negative pole that 1 branch road connects ZD3 voltage-stabiliser tube is connected; 2 branch roads are connected with the positive pole of electrochemical capacitor C25, and 3 branch roads are connected with one end of capacitor C 26, and 4 branch roads are connected with the input pin of single-chip microcomputer U4 three-terminal voltage-stabilizing pipe 78L05; The minus earth of ZD3, the minus earth of C25, the other end ground connection of C26, the 2 pin ground connection of U4, the output pin of U4 forms node, and it is smart benchmark 5V, and 1 branch road is connected with the positive pole of electrochemical capacitor C24,2 branch roads are connected with one end of capacitor C 23, the minus earth of C24, the other end ground connection of C23;
Low level lock motor signal output module:The 21 pin connecting resistance R31 of single-chip microcomputer U2, the base stage of another termination triode Q6 of R31, the grounded emitter of Q6, one end of the colelctor electrode connecting resistance R34 of Q6, another termination LL wire hole of R34;
Audio-frequency module:19 pin of single-chip microcomputer U2 connect one end of capacitor C 22, the other end of C22 forms node, and 1 branch road is connected with resistance R 35, and 2 branch roads are connected with the base stage of triode Q7, the other end ground connection of R35, the colelctor electrode of Q7 forms node, one end of 1 branch road and transformer T1 primary coil, and 2 branch roads connect the colelctor electrode of triode Q8, the emitter stage of Q7 connects the colelctor electrode of Q8, the grounded emitter of Q8, the other end connecting resistance R39 of transformer T1 primary coil, another terminal network label V+ of R39;
Reseting module:6 pin of single-chip microcomputer U2 connect one end of R52, and another termination 3 branch roads of R52 meet 5V;
Audio-frequency module:19 pin of single-chip microcomputer U2 connect one end of capacitor C 22, the other end of C22 forms node, 1 branch road is connected with resistance R 35, 2 branch roads are connected with the base stage of triode Q7, the other end ground connection of R35, the colelctor electrode of Q6 forms node, one end of 1 branch road and transformer T1 primary coil, 2 branch roads connect the colelctor electrode of triode Q8, the emitter stage of Q7 connects the base stage of Q8, the grounded emitter of Q8, the other end connecting resistance R39 of transformer T1 primary coil, another terminal network label V+ of R39, one end that 1 pin of inductance T1 connects buzzing sheet is connected, another pin of buzzing sheet is connected with positive source, 2 pin of inductance T1 are connected with positive source,
Program online burning module:1 pin of programming port P1 connects the port of single-chip microcomputer U2 supply pin 12 pin, 2 pin of programming port P1 connect 6 pin of single-chip microcomputer U2, and form node at 6 pin, 1 branch road connecting resistance R52, another termination 5V of R52, programming port P1 the 3rd pin connects the 23rd pin of single-chip microcomputer U2, the 4th pin of programming port P1 connects 22 pin of single-chip microcomputer U2, programming port P1 the 5th pin connects 9 pin of single-chip microcomputer U2, programming port P1 the 6th pin connects 8 pin of single-chip microcomputer U2, 7 pin of programming port P1 connect 7 pin of single-chip microcomputer U2, and formation node, 1 branch road connecting resistance R59, 8 pin of another termination P1 of R59, 8 pin of P1 connect 11 pin of single-chip microcomputer U2,
Study module:24 pin of single-chip microcomputer U2 meet K2, the other end ground connection of K2;
Electric door lock output detections module:One end of the 16 pin connecting resistance R28 of single-chip microcomputer U2, the base stage of another termination triode Q3 of R28, the grounded emitter of Q3, the colelctor electrode connecting resistance R66 of Q3, the other end of R66 forms node, and a branch road connects the positive pole of diode D4, and two branch roads connect 60V wiring hole and form node, 1 branch road connects the negative pole of diode D4, and 2 branch roads are succeeded one end of electrical equipment K1 coil, network label V+ forms node, 1 branch road connects the negative pole of D4, 2 branch roads are succeeded the other end of electrical equipment K1 coil, relay K 1 normal-closed end forms node, 1 branch road meets 48V, 2 branch road connecting resistance R38, 3 branch road connecting resistance R37, another termination triode Q9 emitter stage of R38, the other end of R37 forms node, 1 branch road connects the base stage of Q9, 2 branch road connecting resistance R32, the colelctor electrode of Q9 connects the positive pole of diode D5, the other end of D5 forms node, 1 branch road is succeeded electrical equipment K1 and is often made war, 2 branch roads connect SUO wire hole, the colelctor electrode of another termination triode Q4 of R32, the base stage connecting resistance R29 of Q4, the R29 other end connects single-chip microcomputer 18 pin, the emitter stage shape ground connection of Q4, single-chip microcomputer 17 pin form node, 1 branch road connecting resistance R27, 2 branch roads connect capacitor C 21, 3 branch roads connect voltage-stabiliser tube ZD2 negative pole, 4 branch road connecting resistance R33, the other end ground connection of R27, the other end ground connection of C21, the other end ground connection of ZD2, the wire hole of another termination SUO of R33,
Radio signal receives amplification module:Antenna TX wiring hole forms node, 1 branch road connects one end of inductance L 1, 2 branch roads connect one end of capacitor C 1, 3 branch roads connect one end of capacitor C 2, the other end ground connection of inductance L 1, the other end ground connection of capacitor C 1, the other end of capacitor C 2 forms node, 1 branch road connects the base stage of triode R25, one end of 2 branch road connecting resistance R2, the grounded emitter of triode Q1, the colelctor electrode of Q1 forms node, one end of 1 branch road resistance R 3, 2 branch roads connect one end of capacitor C 3, the other end of resistance R 3 forms node, the other end of 1 branch road connecting resistance R2, one end of 2 branch road connecting resistance R1, another termination 5V of R1, the other end of capacitor C 3 forms node, 1 branch road connecting resistance R6, 2 branch roads connect capacitor C 4, 3 branch roads connect one end of inductance L 3, one end of 4 branch road connecting resistance R7, the other end ground connection of resistance R 6, another termination capacitor C 9 of resistance R 7, the other end of C4 forms node, one end of 1 branch road contact resistance R5, the base stage of 2 branch road connecting triode Q2, one end of 3 branch road contact resistance R4, 4 branch roads connect one end of capacitor C 6, the other end ground connection of resistance R 5, another termination 5V of resistance R 4, the other end of capacitor C 6 forms node, 1 branch road connects one end of capacitor C 7, 2 branch roads connect one end of controllable impedance L2, the other end of L2 forms node, one end of 1 branch road connecting resistance R8, 2 branch roads connect the other end of capacitor C 7, 3 branch roads connect the colelctor electrode of triode Q2, 4 branch roads connect one end of capacitor C 5, another termination 5V of resistance R 8, the other end of capacitor C 5 forms node, 1 branch road connects the other end of inductance L 3, 2 branch roads connect the emitter stage of triode Q2, the other end of capacitor C 9 forms node, one end of 1 branch road connecting resistance R9, 2 branch roads connect one end of capacitor C 10, 3 branch roads connect 3 pin of U1 chip LM324, the other end ground connection of resistance R 9, the other end ground connection of capacitor C 10, 2 pin of U1 form node, 1 branch road connecting resistance R10, one end of 2 branch road connecting resistance R11, the other end ground connection of R10, the other end of R11 forms node, 1 branch road is connected to 1 pin of U1, 2 branch roads are connected to one end of capacitor C 17, the other end of C17 forms node, one end of 1 branch road connecting resistance R13, 2 branch road connecting resistance R15, 3 branch roads connect 5 pin of U1, the other end of resistance R 13 forms node, 1 branch road connecting resistance R14, 2 branch road connecting resistance R12, 3 branch roads are connected with 6 pin of U1, the other end ground connection of resistance R 14, another termination 5V of resistance R 12, the other end of resistance R 15 forms node, 1 branch road connects 7 pin of U1, one end of 2 branch road connecting resistance R16, the other end of R16 connects 9 pin of single-chip microcomputer U2, one termination 5V of capacitor C 8, other end ground connection, one termination 5V of capacitor C 11, other end ground connection, 4 pin of U1 meet 5V, the 11 pin ground connection of U1,
Electric machine rotation signal detection module:One end of electric machine rotation signal detection hole XS connecting resistance R20, the other end of R20 forms node, one end of 1 branch road connecting resistance R19, 2 branch roads connect the negative pole of Zener diode ZD1, 3 branch roads connect the negative pole of electrochemical capacitor C15, the other end ground connection of resistance R 19, the plus earth of Zener diode ZD1, the positive pole of electrochemical capacitor C15 forms node, 1 branch road connects the positive pole of electrochemical capacitor C12, 2 branch roads connect one end of capacitor C 13, 3 branch roads connect one end of capacitor C 14, 4 branch roads connect 13 pin of U1, one end of 5 branch road connecting resistance R18, the other end ground connection of capacitor C 14, the negative pole of electrochemical capacitor C12 connects one end of inductance L 4, the other end ground connection of L4, the other end of capacitor C 13 forms node, 1 branch road connects the positive pole of diode D1, one end of 2 branch road connecting resistance R17, 3 branch roads connect 12 pin of U1, the minus earth of diode D1, another termination 5V of resistance R 17, the other end of resistance R 18 forms node, 1 branch road connects 14 pin of U1, 2 branch roads connect the positive pole of diode D2, the negative pole of D2 forms node, one end of 1 branch road connecting resistance R21, 2 branch roads connect one end of capacitor C 16, 3 branch roads connect 10 pin of U1, the other end ground connection of resistance R 21, the other end ground connection of capacitor C 16, 9 pin of U1 form node, 1 branch road connecting resistance R22, 2 branch road connecting resistance R23, another termination 5V of R22, the other end ground connection of R23, one end of the 8 pin connecting resistance R24 of U1, the other end of R24 connects 15 pin of single-chip microcomputer U2, 27 pin of single-chip microcomputer U2 meet 5V, 10 pin of U2 connect capacitor C 44, the other end ground connection of C44,
On the wiring board of remote-control handle, the connection of each electronic devices and components is as follows:
Power module:5V cell voltage positive terminal forms node, and 1 branch road meets network label VDD, 2 branch road connecting resistance R0, and the other end of R0 forms fulcrum, and 1 branch road meets network label 5V, and 2 branch roads connect capacitor C 1,3 branch road and connect capacitor C 10, the minus earth of battery, C1 ground connection, C10 ground connection;
Reseting module:6 pin of single-chip microcomputer connect one end of R52, and another termination 3 branch roads of R52 meet 5V;
Coding module:20 pin of single-chip microcomputer form node, one fulcrum connecting resistance R10, the base stage of another termination triode Q2 of R10, three branch roads connect adjustable resistance 1 pin, the other end connecting resistance R1 of D1, another termination 5V of R1, the colelctor electrode of Q2 forms fulcrum, 1 branch road connects inductance L 1, 2 branch roads connect capacitor C 2, another termination power of L1, the other end of C2 forms node, 1 branch road connects the emitter stage of Q2, 2 branch roads connect capacitor C 3, 3 branch road connecting resistance R5, adjustable resistance 2 pin ground connection, 3 pin ground connection, the other end ground connection of C3, the other end ground connection of R5, 10 pin of single-chip microcomputer connect capacitor C 44, C44 other end ground connection,
Failure indication module:21 pin of single-chip microcomputer connect the negative pole of LED lamp D1, anodal connecting resistance R1, another termination 5V of R1;
Key-press module:5 pin of single-chip microcomputer meet button K1, the other end ground connection of K1, and 18 pin of single-chip microcomputer meet button K2, the other end ground connection of K2,17 pin of single-chip microcomputer meet button K3, the other end ground connection of K3,15 pin of single-chip microcomputer meet button K4, the other end ground connection of K4;
Program online burning module:1 pin of programming port P1 connects the port of microcontroller power supply pin 12 pin, 2 pin of programming port P1 connect 6 pin of single-chip microcomputer, and form node at 6 pin, 1 branch road connecting resistance R2, another termination 5V of R2, the 23rd pin of programming port P1 the 3rd pin order sheet, the 4th pin of programming port P1 connects 22 pin of single-chip microcomputer, programming port P1 the 5th pin connects 9 pin of single-chip microcomputer, and programming port P1 the 6th pin connects 8 pin of single-chip microcomputer, and 7 pin of programming port P1 connect 7 pin of single-chip microcomputer, and formation node, 1 branch road connecting resistance R9,8 pin of another termination P1 of R9,8 pin of P1 connect 11 pin of single-chip microcomputer.
The present invention has the following advantages:
1, adopt hopping code, before transmission code, with rolling code AES, source code is carried out to non-linear encryption, thereby produce highly confidential rolling code, it is all unique making the code of each transmission, never repeat, make the means of seizure and scan tracing all be difficult to gather effect.
2, the password of rolling code remote controller has identity code, instruction code and frame hopping, and frame hopping is that password is complied with certain coding function, and once, password changes once immediately in every transmitting, and password adopts message encryption algorithm, can not copied easily or steal, and security is high.
3, parameter (identity code, coincidence counter, key) safety is preserved, in the situation that not having EEPROM, device itself simulates EEPROM with Flash, distribute the value that all will store the coincidence counter of 16bit after code at every turn, for 1KBFlash, if calculated for 100 times according to minimum erasable number of times, can realize the rewriting of the 16-bit synchronometer numerical value of 50000 times, can meet the demands.
4, under 3V or 5V supply voltage condition of work, its minimum power consumption reaches 3.5 μ A, in the service life of greatly having improved battery, coordinates transmitter module can realize the radio transmission of different frequency, different distance, use 315MHz frequency transmitting transmission, spacious distance can reach more than 100 meters.
5, the present invention relates to the application scenario that remote control or order are distinguished, as safety lock, garage door remote control etc., relate to setting up defences, remove, seek car and exempting from key remote control startup of electric vehicle remote control rolling code intelligent anti-theft, high-decibel is reported to the police, and multiple triggering mode enters warning.
Brief description of the drawings
Fig. 1 is host circuit schematic diagram of the present invention.
Fig. 2 is appliance remote control handle circuit theory diagrams of the present invention.
Fig. 3 is remote control rolling code intelligent anti-theft controller and electric vehicle console controller connection diagram.
Detailed description of the invention
As Figure 1-3, this controller comprises main frame and remote-control handle, and wiring board and buzzing sheet formation main frame are installed in shell chamber, and wiring board and button formation remote-control handle are installed in shell chamber; Described main frame is drawn 6 lines altogether, has antenna, lock front, connects wires, locks rear line, electric machine rotation detection line and lock motor holding wire, and on the wiring board of main frame, the connection of each electronic devices and components is as follows:
Power module:60V power line connects the positive pole of diode D6, and the negative pole of D6 forms node, and 1 branch road meets network label V+, one end of 2 branch road connecting resistance R36, and the other end of R36 forms node, and the negative pole that 1 branch road connects ZD3 voltage-stabiliser tube is connected; 2 branch roads are connected with the positive pole of electrochemical capacitor C25, and 3 branch roads are connected with one end of capacitor C 26, and 4 branch roads are connected with the input pin of single-chip microcomputer U4 three-terminal voltage-stabilizing pipe 78L05; The minus earth of ZD3, the minus earth of C25, the other end ground connection of C26, the 2 pin ground connection of U4, the output pin of U4 forms node, and it is smart benchmark 5V, and 1 branch road is connected with the positive pole of electrochemical capacitor C24,2 branch roads are connected with one end of capacitor C 23, the minus earth of C24, the other end ground connection of C23;
Low level lock motor signal output module:The 21 pin connecting resistance R31 of single-chip microcomputer U2, the base stage of another termination triode Q6 of R31, the grounded emitter of Q6, one end of the colelctor electrode connecting resistance R34 of Q6, another termination LL wire hole of R34;
Audio-frequency module:19 pin of single-chip microcomputer U2 connect one end of capacitor C 22, the other end of C22 forms node, and 1 branch road is connected with resistance R 35, and 2 branch roads are connected with the base stage of triode Q7, the other end ground connection of R35, the colelctor electrode of Q7 forms node, one end of 1 branch road and transformer T1 primary coil, and 2 branch roads connect the colelctor electrode of triode Q8, the emitter stage of Q7 connects the colelctor electrode of Q8, the grounded emitter of Q8, the other end connecting resistance R39 of transformer T1 primary coil, another terminal network label V+ of R39;
Reseting module:6 pin of single-chip microcomputer U2 connect one end of R52, and another termination 3 branch roads of R52 meet 5V;
Audio-frequency module:19 pin of single-chip microcomputer U2 connect one end of capacitor C 22, the other end of C22 forms node, 1 branch road is connected with resistance R 35, 2 branch roads are connected with the base stage of triode Q7, the other end ground connection of R35, the colelctor electrode of Q6 forms node, one end of 1 branch road and transformer T1 primary coil, 2 branch roads connect the colelctor electrode of triode Q8, the emitter stage of Q7 connects the base stage of Q8, the grounded emitter of Q8, the other end connecting resistance R39 of transformer T1 primary coil, another terminal network label V+ of R39, one end that 1 pin of inductance T1 connects buzzing sheet is connected, another pin of buzzing sheet is connected with positive source, 2 pin of inductance T1 are connected with positive source,
Program online burning module:1 pin of programming port P1 connects the port of single-chip microcomputer U2 supply pin 12 pin, 2 pin of programming port P1 connect 6 pin of single-chip microcomputer U2, and form node at 6 pin, 1 branch road connecting resistance R52, another termination 5V of R52, programming port P1 the 3rd pin connects the 23rd pin of single-chip microcomputer U2, the 4th pin of programming port P1 connects 22 pin of single-chip microcomputer U2, programming port P1 the 5th pin connects 9 pin of single-chip microcomputer U2, programming port P1 the 6th pin connects 8 pin of single-chip microcomputer U2, 7 pin of programming port P1 connect 7 pin of single-chip microcomputer U2, and formation node, 1 branch road connecting resistance R59, 8 pin of another termination P1 of R59, 8 pin of P1 connect 11 pin of single-chip microcomputer U2,
Study module:24 pin of single-chip microcomputer U2 meet K2, the other end ground connection of K2;
Electric door lock output detections module:One end of the 16 pin connecting resistance R28 of single-chip microcomputer U2, the base stage of another termination triode Q3 of R28, the grounded emitter of Q3, the colelctor electrode connecting resistance R66 of Q3, the other end of R66 forms node, and a branch road connects the positive pole of diode D4, and two branch roads connect 60V wiring hole and form node, 1 branch road connects the negative pole of diode D4, and 2 branch roads are succeeded one end of electrical equipment K1 coil, network label V+ forms node, 1 branch road connects the negative pole of D4, 2 branch roads are succeeded the other end of electrical equipment K1 coil, relay K 1 normal-closed end forms node, 1 branch road meets 48V, 2 branch road connecting resistance R38, 3 branch road connecting resistance R37, another termination triode Q9 emitter stage of R38, the other end of R37 forms node, 1 branch road connects the base stage of Q9, 2 branch road connecting resistance R32, the colelctor electrode of Q9 connects the positive pole of diode D5, the other end of D5 forms node, 1 branch road is succeeded electrical equipment K1 and is often made war, 2 branch roads connect SUO wire hole, the colelctor electrode of another termination triode Q4 of R32, the base stage connecting resistance R29 of Q4, the R29 other end connects single-chip microcomputer 18 pin, the emitter stage shape ground connection of Q4, single-chip microcomputer 17 pin form node, 1 branch road connecting resistance R27, 2 branch roads connect capacitor C 21, 3 branch roads connect voltage-stabiliser tube ZD2 negative pole, 4 branch road connecting resistance R33, the other end ground connection of R27, the other end ground connection of C21, the other end ground connection of ZD2, the wire hole of another termination SUO of R33,
Radio signal receives amplification module:Antenna TX wiring hole forms node, 1 branch road connects one end of inductance L 1, 2 branch roads connect one end of capacitor C 1, 3 branch roads connect one end of capacitor C 2, the other end ground connection of inductance L 1, the other end ground connection of capacitor C 1, the other end of capacitor C 2 forms node, 1 branch road connects the base stage of triode R25, one end of 2 branch road connecting resistance R2, the grounded emitter of triode Q1, the colelctor electrode of Q1 forms node, one end of 1 branch road resistance R 3, 2 branch roads connect one end of capacitor C 3, the other end of resistance R 3 forms node, the other end of 1 branch road connecting resistance R2, one end of 2 branch road connecting resistance R1, another termination 5V of R1, the other end of capacitor C 3 forms node, 1 branch road connecting resistance R6, 2 branch roads connect capacitor C 4, 3 branch roads connect one end of inductance L 3, one end of 4 branch road connecting resistance R7, the other end ground connection of resistance R 6, another termination capacitor C 9 of resistance R 7, the other end of C4 forms node, one end of 1 branch road contact resistance R5, the base stage of 2 branch road connecting triode Q2, one end of 3 branch road contact resistance R4, 4 branch roads connect one end of capacitor C 6, the other end ground connection of resistance R 5, another termination 5V of resistance R 4, the other end of capacitor C 6 forms node, 1 branch road connects one end of capacitor C 7, 2 branch roads connect one end of controllable impedance L2, the other end of L2 forms node, one end of 1 branch road connecting resistance R8, 2 branch roads connect the other end of capacitor C 7, 3 branch roads connect the colelctor electrode of triode Q2, 4 branch roads connect one end of capacitor C 5, another termination 5V of resistance R 8, the other end of capacitor C 5 forms node, 1 branch road connects the other end of inductance L 3, 2 branch roads connect the emitter stage of triode Q2, the other end of capacitor C 9 forms node, one end of 1 branch road connecting resistance R9, 2 branch roads connect one end of capacitor C 10, 3 branch roads connect 3 pin of U1 chip LM324, the other end ground connection of resistance R 9, the other end ground connection of capacitor C 10, 2 pin of U1 form node, 1 branch road connecting resistance R10, one end of 2 branch road connecting resistance R11, the other end ground connection of R10, the other end of R11 forms node, 1 branch road is connected to 1 pin of U1, 2 branch roads are connected to one end of capacitor C 17, the other end of C17 forms node, one end of 1 branch road connecting resistance R13, 2 branch road connecting resistance R15, 3 branch roads connect 5 pin of U1, the other end of resistance R 13 forms node, 1 branch road connecting resistance R14, 2 branch road connecting resistance R12, 3 branch roads are connected with 6 pin of U1, the other end ground connection of resistance R 14, another termination 5V of resistance R 12, the other end of resistance R 15 forms node, 1 branch road connects 7 pin of U1, one end of 2 branch road connecting resistance R16, the other end of R16 connects 9 pin of single-chip microcomputer U2, one termination 5V of capacitor C 8, other end ground connection, one termination 5V of capacitor C 11, other end ground connection, 4 pin of U1 meet 5V, the 11 pin ground connection of U1,
Electric machine rotation signal detection module:One end of electric machine rotation signal detection hole XS connecting resistance R20, the other end of R20 forms node, one end of 1 branch road connecting resistance R19, 2 branch roads connect the negative pole of Zener diode ZD1, 3 branch roads connect the negative pole of electrochemical capacitor C15, the other end ground connection of resistance R 19, the plus earth of Zener diode ZD1, the positive pole of electrochemical capacitor C15 forms node, 1 branch road connects the positive pole of electrochemical capacitor C12, 2 branch roads connect one end of capacitor C 13, 3 branch roads connect one end of capacitor C 14, 4 branch roads connect 13 pin of U1, one end of 5 branch road connecting resistance R18, the other end ground connection of capacitor C 14, the negative pole of electrochemical capacitor C12 connects one end of inductance L 4, the other end ground connection of L4, the other end of capacitor C 13 forms node, 1 branch road connects the positive pole of diode D1, one end of 2 branch road connecting resistance R17, 3 branch roads connect 12 pin of U1, the minus earth of diode D1, another termination 5V of resistance R 17, the other end of resistance R 18 forms node, 1 branch road connects 14 pin of U1, 2 branch roads connect the positive pole of diode D2, the negative pole of D2 forms node, one end of 1 branch road connecting resistance R21, 2 branch roads connect one end of capacitor C 16, 3 branch roads connect 10 pin of U1, the other end ground connection of resistance R 21, the other end ground connection of capacitor C 16, 9 pin of U1 form node, 1 branch road connecting resistance R22, 2 branch road connecting resistance R23, another termination 5V of R22, the other end ground connection of R23, one end of the 8 pin connecting resistance R24 of U1, the other end of R24 connects 15 pin of single-chip microcomputer U2, 27 pin of single-chip microcomputer U2 meet 5V, 10 pin of U2 connect capacitor C 44, the other end ground connection of C44,
Wherein, on the wiring board of described remote-control handle, the connection of each electronic devices and components is as follows:
Power module:5V cell voltage positive terminal forms node, and 1 branch road meets network label VDD, 2 branch road connecting resistance R0, and the other end of R0 forms fulcrum, and 1 branch road meets network label 5V, and 2 branch roads connect capacitor C 1,3 branch road and connect capacitor C 10, the minus earth of battery, C1 ground connection, C10 ground connection;
Reseting module:6 pin of single-chip microcomputer connect one end of R52, and another termination 3 branch roads of R52 meet 5V;
Coding module:20 pin of single-chip microcomputer form node, one fulcrum connecting resistance R10, the base stage of another termination triode Q2 of R10, three branch roads connect adjustable resistance 1 pin, the other end connecting resistance R1 of D1, another termination 5V of R1, the colelctor electrode of Q2 forms fulcrum, 1 branch road connects inductance L 1, 2 branch roads connect capacitor C 2, another termination power of L1, the other end of C2 forms node, 1 branch road connects the emitter stage of Q2, 2 branch roads connect capacitor C 3, 3 branch road connecting resistance R5, adjustable resistance 2 pin ground connection, 3 pin ground connection, the other end ground connection of C3, the other end ground connection of R5, 10 pin of single-chip microcomputer connect capacitor C 44, C44 other end ground connection,
Failure indication module:21 pin of single-chip microcomputer connect the negative pole of LED lamp D1, anodal connecting resistance R1, another termination 5V of R1;
Key-press module:5 pin of single-chip microcomputer meet button K1, the other end ground connection of K1, and 18 pin of single-chip microcomputer meet button K2, the other end ground connection of K2,17 pin of single-chip microcomputer meet button K3, the other end ground connection of K3,15 pin of single-chip microcomputer meet button K4, the other end ground connection of K4;
Program online burning module:1 pin of programming port P1 connects the port of microcontroller power supply pin 12 pin, 2 pin of programming port P1 connect 6 pin of single-chip microcomputer, and form node at 6 pin, 1 branch road connecting resistance R2, another termination 5V of R2, the 23rd pin of programming port P1 the 3rd pin order sheet, the 4th pin of programming port P1 connects 22 pin of single-chip microcomputer, programming port P1 the 5th pin connects 9 pin of single-chip microcomputer, and programming port P1 the 6th pin connects 8 pin of single-chip microcomputer, and 7 pin of programming port P1 connect 7 pin of single-chip microcomputer, and formation node, 1 branch road connecting resistance R9,8 pin of another termination P1 of R9,8 pin of P1 connect 11 pin of single-chip microcomputer.
Illustrate:
Button on the remote-control handle of remote control rolling code intelligent anti-theft controller be followed successively by from top to bottom the key of setting up defences, remove key, seek car key, remote control start key;
When intelligence learning, only need press the study button on the main frame of remote control rolling code intelligent anti-theft controller, hear that prompt tone presses any key on the remote-control handle of remote control rolling code intelligent anti-theft controller again.
Claims (1)
1. remote control rolling code intelligent anti-theft controller, this controller comprises main frame and remote-control handle, and wiring board and buzzing sheet formation main frame are installed in shell chamber, and wiring board and button formation remote-control handle are installed in shell chamber; Described main frame is drawn 6 lines altogether, has antenna, lock front, connects wires, locks rear line, electric machine rotation detection line and lock motor holding wire, and on the wiring board of main frame, the connection of each electronic devices and components is as follows:
Power module:60V power line connects the positive pole of diode D6, and the negative pole of D6 forms node, and 1 branch road meets network label V+, one end of 2 branch road connecting resistance R36, and the other end of R36 forms node, and the negative pole that 1 branch road connects ZD3 voltage-stabiliser tube is connected; 2 branch roads are connected with the positive pole of electrochemical capacitor C25, and 3 branch roads are connected with one end of capacitor C 26, and 4 branch roads are connected with the input pin of the three-terminal voltage-stabilizing pipe 78L05U3 of single-chip microcomputer; The minus earth of ZD3, the minus earth of C25, the other end ground connection of C26, the 2 pin ground connection of U4, the output pin of U4 forms node, and it is smart benchmark 5V, and 1 branch road is connected with the positive pole of electrochemical capacitor C24,2 branch roads are connected with one end of capacitor C 23, the minus earth of C24, the other end ground connection of C23;
Low level lock motor signal output module:The 21 pin connecting resistance R31 of single-chip microcomputer U2, the base stage of another termination triode Q6 of R31, the grounded emitter of Q6, one end of the colelctor electrode connecting resistance R34 of Q6, another termination LL wire hole of R34;
Audio-frequency module:19 pin of single-chip microcomputer U2 connect one end of capacitor C 22, the other end of C22 forms node, and 1 branch road is connected with resistance R 35, and 2 branch roads are connected with the base stage of triode Q7, the other end ground connection of R35, the colelctor electrode of Q7 forms node, one end of 1 branch road and transformer T1 primary coil, and 2 branch roads connect the colelctor electrode of triode Q8, the emitter stage of Q7 connects the colelctor electrode of Q8, the grounded emitter of Q8, the other end connecting resistance R39 of transformer T1 primary coil, another terminal network label V+ of R39;
Reseting module:6 pin of single-chip microcomputer U2 connect one end of R52, and another termination 3 branch roads of R52 meet 5V;
Audio-frequency module:19 pin of single-chip microcomputer U2 connect one end of capacitor C 22, the other end of C22 forms node, 1 branch road is connected with resistance R 35, 2 branch roads are connected with the base stage of triode Q7, the other end ground connection of R35, the colelctor electrode of Q6 forms node, one end of 1 branch road and transformer T1 primary coil, 2 branch roads connect the colelctor electrode of triode Q8, the emitter stage of Q7 connects the base stage of Q8, the grounded emitter of Q8, the other end connecting resistance R39 of transformer T1 primary coil, another terminal network label V+ of R39, one end that 1 pin of inductance T1 connects buzzing sheet is connected, another pin of buzzing sheet is connected with positive source, 2 pin of inductance T1 are connected with positive source,
Program online burning module:1 pin of programming port P1 connects the port of single-chip microcomputer U2 supply pin 12 pin, 2 pin of programming port P1 connect 6 pin of single-chip microcomputer U2, and form node at 6 pin, 1 branch road connecting resistance R52, another termination 5V of R52, programming port P1 the 3rd pin connects the 23rd pin of single-chip microcomputer U2, the 4th pin of programming port P1 connects 22 pin of single-chip microcomputer U2, programming port P1 the 5th pin connects 9 pin of single-chip microcomputer U2, programming port P1 the 6th pin connects 8 pin of single-chip microcomputer U2, 7 pin of programming port P1 connect 7 pin of single-chip microcomputer U2, and formation node, 1 branch road connecting resistance R59, 8 pin of another termination P1 of R59, 8 pin of P1 connect 11 pin of single-chip microcomputer U2,
Study module:24 pin of single-chip microcomputer U2 meet K2, the other end ground connection of K2;
Electric door lock output detections module:One end of the 16 pin connecting resistance R28 of single-chip microcomputer U2, the base stage of another termination triode Q3 of R28, the grounded emitter of Q3, the colelctor electrode connecting resistance R66 of Q3, the other end of R66 forms node, and a branch road connects the positive pole of diode D4, and two branch roads connect 60V wiring hole and form node, 1 branch road connects the negative pole of diode D4, and 2 branch roads are succeeded one end of electrical equipment K1 coil, network label V+ forms node, 1 branch road connects the negative pole of D4, 2 branch roads are succeeded the other end of electrical equipment K1 coil, relay K 1 normal-closed end forms node, 1 branch road meets 48V, 2 branch road connecting resistance R38, 3 branch road connecting resistance R37, another termination triode Q9 emitter stage of R38, the other end of R37 forms node, 1 branch road connects the base stage of Q9, 2 branch road connecting resistance R32, the colelctor electrode of Q9 connects the positive pole of diode D5, the other end of D5 forms node, 1 branch road is succeeded electrical equipment K1 and is often made war, 2 branch roads connect SUO wire hole, the colelctor electrode of another termination triode Q4 of R32, the base stage connecting resistance R29 of Q4, the R29 other end connects single-chip microcomputer 18 pin, the emitter stage shape ground connection of Q4, single-chip microcomputer 17 pin form node, 1 branch road connecting resistance R27, 2 branch roads connect capacitor C 21, 3 branch roads connect voltage-stabiliser tube ZD2 negative pole, 4 branch road connecting resistance R33, the other end ground connection of R27, the other end ground connection of C21, the other end ground connection of ZD2, the wire hole of another termination SUO of R33,
Radio signal receives amplification module:Antenna TX wiring hole forms node, 1 branch road connects one end of inductance L 1, 2 branch roads connect one end of capacitor C 1, 3 branch roads connect one end of capacitor C 2, the other end ground connection of inductance L 1, the other end ground connection of capacitor C 1, the other end of capacitor C 2 forms node, 1 branch road connects the base stage of triode R25, one end of 2 branch road connecting resistance R2, the grounded emitter of triode Q1, the colelctor electrode of Q1 forms node, one end of 1 branch road resistance R 3, 2 branch roads connect one end of capacitor C 3, the other end of resistance R 3 forms node, the other end of 1 branch road connecting resistance R2, one end of 2 branch road connecting resistance R1, another termination 5V of R1, the other end of capacitor C 3 forms node, 1 branch road connecting resistance R6, 2 branch roads connect capacitor C 4, 3 branch roads connect one end of inductance L 3, one end of 4 branch road connecting resistance R7, the other end ground connection of resistance R 6, another termination capacitor C 9 of resistance R 7, the other end of C4 forms node, one end of 1 branch road contact resistance R5, the base stage of 2 branch road connecting triode Q2, one end of 3 branch road contact resistance R4, 4 branch roads connect one end of capacitor C 6, the other end ground connection of resistance R 5, another termination 5V of resistance R 4, the other end of capacitor C 6 forms node, 1 branch road connects one end of capacitor C 7, 2 branch roads connect one end of controllable impedance L2, the other end of L2 forms node, one end of 1 branch road connecting resistance R8, 2 branch roads connect the other end of capacitor C 7, 3 branch roads connect the colelctor electrode of triode Q2, 4 branch roads connect one end of capacitor C 5, another termination 5V of resistance R 8, the other end of capacitor C 5 forms node, 1 branch road connects the other end of inductance L 3, 2 branch roads connect the emitter stage of triode Q2, the other end of capacitor C 9 forms node, one end of 1 branch road connecting resistance R9, 2 branch roads connect one end of capacitor C 10, 3 branch roads connect 3 pin of U1 chip LM324, the other end ground connection of resistance R 9, the other end ground connection of capacitor C 10, 2 pin of U1 form node, 1 branch road connecting resistance R10, one end of 2 branch road connecting resistance R11, the other end ground connection of R10, the other end of R11 forms node, 1 branch road is connected to 1 pin of U1, 2 branch roads are connected to one end of capacitor C 17, the other end of C17 forms node, one end of 1 branch road connecting resistance R13, 2 branch road connecting resistance R15, 3 branch roads connect 5 pin of U1, the other end of resistance R 13 forms node, 1 branch road connecting resistance R14, 2 branch road connecting resistance R12, 3 branch roads are connected with 6 pin of U1, the other end ground connection of resistance R 14, another termination 5V of resistance R 12, the other end of resistance R 15 forms node, 1 branch road connects 7 pin of U1, one end of 2 branch road connecting resistance R16, the other end of R16 connects 9 pin of single-chip microcomputer U2, one termination 5V of capacitor C 8, other end ground connection, one termination 5V of capacitor C 11, other end ground connection, 4 pin of U1 meet 5V, the 11 pin ground connection of U1,
Electric machine rotation signal detection module:One end of electric machine rotation signal detection hole XS connecting resistance R20, the other end of R20 forms node, one end of 1 branch road connecting resistance R19, 2 branch roads connect the negative pole of Zener diode ZD1, 3 branch roads connect the negative pole of electrochemical capacitor C15, the other end ground connection of resistance R 19, the plus earth of Zener diode ZD1, the positive pole of electrochemical capacitor C15 forms node, 1 branch road connects the positive pole of electrochemical capacitor C12, 2 branch roads connect one end of capacitor C 13, 3 branch roads connect one end of capacitor C 14, 4 branch roads connect 13 pin of U1, one end of 5 branch road connecting resistance R18, the other end ground connection of capacitor C 14, the negative pole of electrochemical capacitor C12 connects one end of inductance L 4, the other end ground connection of L4, the other end of capacitor C 13 forms node, 1 branch road connects the positive pole of diode D1, one end of 2 branch road connecting resistance R17, 3 branch roads connect 12 pin of U1, the minus earth of diode D1, another termination 5V of resistance R 17, the other end of resistance R 18 forms node, 1 branch road connects 14 pin of U1, 2 branch roads connect the positive pole of diode D2, the negative pole of D2 forms node, one end of 1 branch road connecting resistance R21, 2 branch roads connect one end of capacitor C 16, 3 branch roads connect 10 pin of U1, the other end ground connection of resistance R 21, the other end ground connection of capacitor C 16, 9 pin of U1 form node, 1 branch road connecting resistance R22, 2 branch road connecting resistance R23, another termination 5V of R22, the other end ground connection of R23, one end of the 8 pin connecting resistance R24 of U1, the other end of R24 connects 15 pin of single-chip microcomputer U2, 27 pin of single-chip microcomputer U2 meet 5V, 10 pin of U2 connect capacitor C 44, the other end ground connection of C44,
It is characterized in that: wherein, on the wiring board of described remote-control handle, the connection of each electronic devices and components is as follows:
Power module:5V cell voltage positive terminal forms node, and 1 branch road meets network label VDD, 2 branch road connecting resistance R0, and the other end of R0 forms fulcrum, and 1 branch road meets network label 5V, and 2 branch roads connect capacitor C 1,3 branch road and connect capacitor C 10, the minus earth of battery, C1 ground connection, C10 ground connection;
Reseting module:6 pin of single-chip microcomputer connect one end of R2, and another termination 3 branch roads of R2 meet 5V;
Coding module:20 pin of single-chip microcomputer form node, one fulcrum connecting resistance R10, the base stage of another termination triode Q2 of R10, three branch roads connect adjustable resistance 1 pin, the other end connecting resistance R1 of D1, another termination 5V of R1, the colelctor electrode of Q2 forms fulcrum, 1 branch road connects inductance L 1, 2 branch roads connect capacitor C 2, another termination power of L1, the other end of C2 forms node, 1 branch road connects the emitter stage of Q2, 2 branch roads connect capacitor C 3, 3 branch road connecting resistance R5, adjustable resistance 2 pin ground connection, 3 pin ground connection, the other end ground connection of C3, the other end ground connection of R5, 10 pin of single-chip microcomputer connect capacitor C 44, C44 other end ground connection,
Failure indication module:21 pin of single-chip microcomputer connect the negative pole of LED lamp D1, anodal connecting resistance R1, another termination 5V of R1;
Key-press module:5 pin of single-chip microcomputer meet button K1, the other end ground connection of K1, and 18 pin of single-chip microcomputer meet button K2, the other end ground connection of K2,17 pin of single-chip microcomputer meet button K3, the other end ground connection of K3,15 pin of single-chip microcomputer meet button K4, the other end ground connection of K4;
Program online burning module:1 pin of programming port P1 connects the port of microcontroller power supply pin 12 pin, 2 pin of programming port P1 connect 6 pin of single-chip microcomputer, and form node at 6 pin, 1 branch road connecting resistance R2, another termination 5V of R2, the 23rd pin of programming port P1 the 3rd pin order sheet, the 4th pin of programming port P1 connects 22 pin of single-chip microcomputer, programming port P1 the 5th pin connects 9 pin of single-chip microcomputer, and programming port P1 the 6th pin connects 8 pin of single-chip microcomputer, and 7 pin of programming port P1 connect 7 pin of single-chip microcomputer, and formation node, 1 branch road connecting resistance R9,8 pin of another termination P1 of R9,8 pin of P1 connect 11 pin of single-chip microcomputer.
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CN104283674A (en) * | 2014-10-27 | 2015-01-14 | 北海市蕴芯电子科技有限公司 | TTF RFID with both rolling code and secret key encrypted |
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CN203588017U (en) * | 2013-11-12 | 2014-05-07 | 淮安市金恒泰科技有限公司 | Remote control rolling code intelligent antitheft controller |
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CN201941726U (en) * | 2011-02-10 | 2011-08-24 | 赵兴 | Burglar alarm of automobile |
CN202463765U (en) * | 2012-02-10 | 2012-10-03 | 淮安市金恒泰科技有限公司 | Automatic protection remote control voice anti-theft alarm |
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