CN106815995A

CN106815995A - Double wave dicode remote control transmitter

Info

Publication number: CN106815995A
Application number: CN201510872462.7A
Authority: CN
Inventors: 杨远敏; 蒋丹
Original assignee: Chongqing Zunlai Technology Co Ltd
Current assignee: Chongqing Zunlai Technology Co Ltd
Priority date: 2015-12-02
Filing date: 2015-12-02
Publication date: 2017-06-09

Abstract

Double wave dicode remote control transmitter, belongs to electronic technology field, mainly by double wave dicode battery supply, double wave dicode button switch, double wave dicode electronic oscillating circuit switch；The ripple electronic switch of double wave dicode one, the ripple of double wave dicode one coding insulating electron circuit, the ripple coded electronic circuit of double wave dicode one, the ripple of double wave dicode one transmitting insulating electron circuit, the ripple launching electronics circuit of double wave dicode one or unit；The ripple electronic switch of double wave dicode two, the ripple of double wave dicode two coding insulating electron circuit, the ripple coded electronic circuit of double wave dicode two, the ripple of double wave dicode two transmitting insulating electron circuit, the ripple launching electronics circuit of double wave dicode two or unit are constituted；Its double wave is radio wave and infrared wave；Or for infrared wave and ultrasonic wave or be that ultrasonic wave and radio wave are constituted；Its dicode or for regular coding and regular coding or be regular coding and rolling coding, or for rolling coding is combined with rolling coding；Strong security, stable and reliable for performance, simple, easily production is installed.

Description

Double wave dicode remote control transmitter

Technical field

Belong to electronic technology field.

Background technology

Remote control coding lift-off technology, one is a very wide range of electronic technology of kind of application, in the life of the masses quite variedly Occur, it is well known that anti-copying, security classification anti-tampering, high are that the important technology for representing that remote control coding lift-off technology is good and bad refers to Mark.From in terms of present technical merit, such as motor central lock input remote control, there is and make not safe enough, work as lawless person When nearby using the sufficiently large automobile remote-control interference unit of power, interception automobile remote controllers signal is may interfere with, allow its failure.Due to Interference unit is waited do not limited by car type and remote control kind when in use, and fixed code, specific code, rolling code can be disturbed, only Want jamming power sufficiently large, any a vehicle can be disturbed, the order for making automobile to lock a door, cause the false lock of vehicle existing As, it is dangerous, cause very big hidden danger.More there is victor, some lawless persons also can use a kind of " grabbing a yard device " also to cry " reproducer " Special electrical devices, when owner is when remote controlled locking is used, this electronic instrument can capture the radiofrequency signal and message in cipher of remote control Number, after treating that owner leaves, lawless person will be trusted with the instrument and audaciously copy code signal, carry out unlocking theft, The major safety risks of unnecessary economic loss are caused to car owner；Single enormous amount with regard to automobile product one, there is Great market.

Therefore how the interference of anti-tampering device, how anti-copying, how could realize improving the level of confidentiality degree that uses, reduction and use Cost, is adapted to the product of minuscule-type-enterprise's production, also becomes the key subjects of this enterprise scientific research personnel.

Motor central lock, car alarm, closing of the door that above-mentioned purpose invented using our company is reached to throw automatically Enter device can effectively anti-lawless person the generation for causing the false lock phenomenon of vehicle is disturbed with interference unit；

Prevent lawless person from will be trusted with the instrument and audaciously copy code signal, carry out unlocking theft, to reach Purpose is stated, is a kind of serious challenge, it is necessary to break through traditional mode of thinking completely, using being a kind of complete great innovation, Therefore, main guiding theory of the invention is, a kind of double wave dicode launch scenario is developed, the increase of its transmitting carrier wave and coding Various change selections, improve secret and safe.

Some lawless persons is copied code signal with the special electrical devices of " reproducer ", carry out theft purpose of unlocking It is difficult to.

The content of the invention

Double wave dicode remote control transmitter also has an anti-ability of cracking very high, one be its carrier wave can or for radio wave with it is red The combination of outside line ripple or the combination for infrared wave and ultrasonic wave or the combination for radio wave and ultrasonic wave, two is when it is compiled Code is the combination of regular coding and regular coding or for regular coding combine with rolling coding, or is rolling coding and rolling Coded combination can play optimum efficiency.So as to abundant transmitting coding techniques.Because this double wave dicode remote control transmitter has a lot The change of the form of kind, and each version all has great importance, so this enterprise has made system innovation, proposes system Scheme of the invention, as series protection system.With easily production, operate has very big competitiveness well in market competition.

1st, double wave dicode remote control transmitter is by double wave dicode remote control transmitter one, the difference of double wave dicode remote control transmitter two Composition.

Double wave dicode remote control transmitter one is by double wave dicode battery supply, double wave dicode button switch, double wave dicode electronics Oscillating circuit is switched.

The ripple electronic switch of double wave dicode one, the ripple of double wave dicode one coding insulating electron circuit, the ripple of double wave dicode one coding electricity Sub-circuit, the ripple of double wave dicode one transmitting insulating electron circuit, the ripple of double wave dicode one transmitting pre-amplification circuit, the ripple of double wave dicode one Launching electronics circuit.

The ripple electronic switch of double wave dicode two, the ripple of double wave dicode two coding insulating electron circuit, the ripple of double wave dicode two coding electricity Sub-circuit, the ripple of double wave dicode two transmitting insulating electron circuit, the ripple of double wave dicode two transmitting pre-amplification circuit, the ripple of double wave dicode two Launching electronics circuit is constituted.

Double wave dicode button switch one end connects double wave dicode battery supply positive pole, the double wave dicode button switch other end Respectively with double wave dicode electronic oscillating circuit Switching Power Supply end,_,The ripple electronic switch power end of double wave dicode one, the ripple of double wave dicode two Electronic switch power end connects；Double wave dicode electronic oscillating circuit switchs ground wire,_,The ripple electronic switch ground wire of double wave dicode one,_,It is double The ripple electronic switch ground wire of ripple dicode two is connected with double wave dicode battery supply ground wire respectively.

Two output ends of double wave dicode electronic oscillating circuit switch are double with the ripple electronic switch of double wave dicode one, double wave respectively Two control ends of two ripple electronic switches of code are connected.

The ripple electronic switch output end of double wave dicode one encodes insulating electron circuit input end with the ripple of double wave dicode one respectively, double The ripple of ripple dicode one transmitting insulating electron circuit input end is connected, the ripple of double wave dicode one coding insulating electron circuit output end and double wave The ripple coded electronic circuit power end of dicode one is connected, the ripple coded electronic circuit ground of double wave dicode one and double wave dicode battery supply Ground wire is connected；The ripple coded electronic circuit output end of double wave dicode one launches pre-amplification circuit input phase with the ripple of double wave dicode one Even, the ripple of double wave dicode one transmitting pre-amplification circuit output end is connected with the ripple launching electronics circuit input end of double wave dicode one；It is double The ripple of ripple dicode one transmitting insulating electron circuit output end launches pre-amplification circuit power end, double wave with the ripple of double wave dicode one respectively The ripple launching electronics circuit power end of dicode one is connected；The ripple of double wave dicode one launches pre-amplification circuit ground terminal, double wave dicode one Ripple launching electronics circuit ground end is connected with double wave dicode battery supply ground terminal respectively.

The ripple electronic switch output end of double wave dicode two encodes insulating electron circuit input end with the ripple of double wave dicode two respectively, double The ripple of ripple dicode two transmitting insulating electron circuit input end is connected, the ripple of double wave dicode two coding insulating electron circuit output end and double wave The ripple coded electronic circuit power end of dicode two is connected, the ripple coded electronic circuit ground of double wave dicode two and double wave dicode battery supply Ground wire is connected；The ripple coded electronic circuit output end of double wave dicode two launches pre-amplification circuit input phase with the ripple of double wave dicode two Even, the ripple of double wave dicode one transmitting pre-amplification circuit output end is connected with the ripple launching electronics circuit input end of double wave dicode two；It is double The ripple of ripple dicode two transmitting insulating electron circuit output end launches pre-amplification circuit power end, double wave with the ripple of double wave dicode one respectively The ripple launching electronics circuit power end of dicode two is connected；The ripple of double wave dicode one launches pre-amplification circuit ground terminal, double wave dicode two Ripple launching electronics circuit ground end is connected with double wave dicode battery supply ground terminal respectively.

Double wave dicode remote control transmitter two is by double wave dicode battery power circuit, double wave dicode button switch circuit, double wave Dicode electronic oscillating circuit on-off circuit.

The ripple electronic switching circuit of double wave dicode one, the ripple of double wave dicode one coding insulating electron circuit, the ripple of double wave dicode one is compiled Code electronic circuit, the ripple of double wave dicode one transmitting insulating electron circuit, one yard of launching electronics circuit unit of double wave dicode.

The ripple electronic switching circuit of double wave dicode two, the ripple of double wave dicode two coding insulating electron circuit, the ripple of double wave dicode two is compiled Code electronic circuit, the ripple of double wave dicode two transmitting insulating electron circuit, the ripple launching electronics circuit unit of double wave dicode two composition.

The ripple launching electronics circuit unit of double wave dicode one is by the launching electronics circuit of one ripple of double wave dicode one, the ripple of double wave dicode one Two launching electronics circuits are constituted.

The launching electronics circuit of one ripple of double wave dicode one launches input circuit, the ripple one of double wave dicode one by the ripple one of double wave dicode one Transmitting output circuit composition.

The launching electronics circuit of one ripple of double wave dicode two launches input circuit, the ripple two of double wave dicode one by the ripple two of double wave dicode one Transmitting output circuit composition.

The ripple launching electronics circuit unit of double wave dicode two is by the launching electronics circuit of two ripple of double wave dicode one, the ripple of double wave dicode two Two launching electronics circuits are constituted.

The launching electronics circuit of two ripple of double wave dicode one launches input circuit, the ripple one of double wave dicode two by the ripple one of double wave dicode two Transmitting output circuit composition.

The launching electronics circuit of two ripple of double wave dicode two launches input circuit, the ripple two of double wave dicode two by the ripple two of double wave dicode two Transmitting output circuit composition.

Double wave dicode button switch circuit on one side connects double wave dicode battery power circuit positive pole, and double wave dicode button is opened The powered-down road other end respectively with double wave dicode electronic oscillating circuit on-off circuit power end,_,The ripple electronic cutting of double wave dicode one is powered-down Road circuit power end, the connection of the ripple electronic switching circuit circuit power end of double wave dicode two；Double wave dicode electronic oscillating circuit is switched Circuit ground,_,The ripple electronic switching circuit ground wire of double wave dicode one,_,The ripple electronic switching circuit ground wire of double wave dicode two respectively with double wave Dicode battery power circuit ground wire is connected.

Two output ends of double wave dicode electronic oscillating circuit on-off circuit connect the ripple electronic switch of double wave dicode one respectively Circuit, two control ends of the ripple electronic switching circuit of double wave dicode two are connected.

The ripple electronic switching circuit output end of double wave dicode one is input into the ripple of double wave dicode one coding insulating electron circuit respectively End, the ripple of double wave dicode one transmitting insulating electron circuit input end is connected, the ripple of double wave dicode one coding insulating electron circuit output end It is connected with the ripple coded electronic circuit power end of double wave dicode one, the ripple coded electronic circuit ground of double wave dicode one is electric with double wave dicode Pond power circuit ground wire is connected；The ripple coded electronic circuit output end of double wave dicode one and the ripple launching electronics circuit list of double wave dicode one First input is connected；One yard of transmitting insulating electron circuit output end of unicast and the ripple launching electronics circuit unit power supply of double wave dicode one End is connected；The ripple launching electronics circuit unit ground terminal of double wave dicode one is connected with double wave dicode battery supply ground terminal.

The launching electronics circuit of one ripple of double wave dicode one launches input circuit, the ripple one of double wave dicode one by the ripple one of double wave dicode one Transmitting output circuit composition；The power end of the transmitting input circuit of one ripple of double wave dicode one and the transmitting output electricity of one ripple of double wave dicode one Road power end is connected, ground terminal and the transmitting output circuit of one ripple of double wave dicode one ground of the transmitting input circuit of one ripple of double wave dicode one Line end is connected, and the output end of the transmitting input circuit of one ripple of double wave dicode one launches output circuit input with one ripple of double wave dicode one It is connected.

The launching electronics circuit of one ripple of double wave dicode two launches input circuit, the ripple two of double wave dicode one by the ripple two of double wave dicode one Transmitting output circuit composition；The power end of the transmitting input circuit of one ripple of double wave dicode two and the transmitting output electricity of one ripple of double wave dicode two Road power end is connected, ground terminal and the transmitting output circuit of one ripple of double wave dicode two ground of the transmitting input circuit of one ripple of double wave dicode two Line end is connected, and the output end of the transmitting input circuit of one ripple of double wave dicode two launches output circuit input with one ripple of double wave dicode two It is connected.

The ripple coded electronic circuit output end of double wave dicode one launches input circuit input with one ripple of double wave dicode one respectively, The transmitting input circuit input of one ripple of double wave dicode two is connected.

The ripple electronic switching circuit output end of double wave dicode two is input into the ripple of double wave dicode two coding insulating electron circuit respectively End, the ripple of double wave dicode two transmitting insulating electron circuit input end is connected, the ripple of double wave dicode two coding insulating electron circuit output end It is connected with the ripple coded electronic circuit power end of double wave dicode two, the ripple coded electronic circuit ground of double wave dicode two is electric with double wave dicode Pond power circuit.

Ground wire is connected；The ripple coded electronic circuit code output end of double wave dicode two and the ripple launching electronics circuit of double wave dicode two Unit input is connected；The ripple of double wave dicode two launches insulating electron circuit output end and the ripple launching electronics circuit list of double wave dicode two First power end is connected；The ripple launching electronics circuit unit ground terminal of double wave dicode two is connected with double wave dicode battery supply ground terminal.

The power end of the transmitting input circuit of one ripple of double wave dicode one launches output circuit power end with one ripple of double wave dicode one It is connected, the ground terminal of the transmitting input circuit of one ripple of double wave dicode one launches output circuit ground terminal phase with one ripple of double wave dicode one Even, the output end of the transmitting of one ripple of double wave dicode one input circuit is connected with the transmitting output circuit input of one ripple of double wave dicode one.

The power end of the transmitting input circuit of one ripple of double wave dicode two launches output circuit power end with one ripple of double wave dicode two It is connected, the ground terminal of the transmitting input circuit of one ripple of double wave dicode two launches output circuit ground terminal phase with one ripple of double wave dicode two Even, the output end of the transmitting of one ripple of double wave dicode two input circuit is connected with the transmitting output circuit input of one ripple of double wave dicode two.

The power end of the transmitting input circuit of two ripple of double wave dicode one launches output circuit power end with two ripple of double wave dicode one It is connected, the ground terminal of the transmitting input circuit of two ripple of double wave dicode one launches output circuit ground terminal phase with two ripple of double wave dicode one Even, the output end of the transmitting of two ripple of double wave dicode one input circuit is connected with the transmitting output circuit input of two ripple of double wave dicode one.

The power end of the transmitting input circuit of two ripple of double wave dicode two launches output circuit power end with two ripple of double wave dicode two It is connected, the ground terminal of the transmitting input circuit of two ripple of double wave dicode two launches output circuit ground terminal phase with two ripple of double wave dicode two Even, the output end of the transmitting of two ripple of double wave dicode two input circuit is connected with the transmitting output circuit input of two ripple of double wave dicode two.

The ripple coded electronic circuit output end of double wave dicode two launches input circuit input with two ripple of double wave dicode one respectively, The transmitting input circuit input of two ripple of double wave dicode two is connected.

2nd, the double wave of double wave dicode remote control transmitter is combined for radio wave with infrared wave.

3rd, the double wave of double wave dicode remote control transmitter is combined for infrared wave with ultrasonic wave.

4th, the dicode of double wave dicode remote control transmitter is combined for regular coding with rolling coding.

5th, the dicode of double wave dicode remote control transmitter or for rolling coding is combined with rolling coding.

The double wave of double wave dicode remote control transmitter is that radio wave and infrared wave are constituted；Or for infrared wave with it is super Sound wave constitutes or is that ultrasonic wave and radio wave are constituted；The dicode of double wave dicode remote control transmitter is regular coding and fixation The combination of coding or for regular coding is combined with rolling coding, or for rolling coding is combined with rolling coding.

Its operation principle is as follows：

Double wave dicode remote control transmitter is made up of respectively double wave dicode remote control transmitter one, double wave dicode remote control transmitter two； Its operation principle is identical, and double wave dicode remote control transmitter two is the reinforced of the transmitting of double wave dicode remote control transmitter one, its transmitting Ability more Strong, is more suitable for the poor place of environment；So only it is to be understood that the operation principle of double wave dicode remote control transmitter two The operation principle of double wave dicode remote control transmitter one is just understood, similarly only it is to be understood that the work of double wave dicode remote control transmitter one Make the operation principle that principle has also just understood double wave dicode remote control transmitter two.

Because double wave dicode button switch circuit on one side connects double wave dicode battery power circuit positive pole, double wave dicode is pressed The button switch circuit other end respectively with double wave dicode electronic oscillating circuit on-off circuit power end,_,The ripple electronic cutting of double wave dicode one Powered-down road power end, the connection of the ripple electronic switching circuit power end of double wave dicode two；Double wave dicode electronic oscillating circuit on-off circuit Ground wire, the ripple electronic switching circuit ground wire of double wave dicode one, the ripple electronic switching circuit ground wire of double wave dicode two respectively with double wave dicode Battery power circuit ground wire is connected.

So when a kind of double wave dicode button switch circuit of double wave dicode transmitting design is pressed, double wave dicode electricity Sub- oscillating circuit on-off circuit switches on power start-up operation, the ripple electronic switching circuit of double wave dicode one, the ripple electronics of double wave dicode two On-off circuit switches on power to start working and prepares.

Double wave dicode electronic oscillating circuit on-off circuit switches on power start-up operation, double wave dicode electronic oscillating circuit switch Circuit starts vibration, and two output ends of double wave dicode electronic oscillating circuit on-off circuit export height or low each other each other respectively Two electric potential signals high.

The start-up operation that switches on power of the ripple electronic switching circuit of double wave dicode one, the ripple electronic switching circuit of double wave dicode two is accurate It is standby；When the ripple electronic switching circuit of double wave dicode one, the control end of the ripple electronic switching circuit of double wave dicode two are high potential, double wave is double One ripple electronic switching circuit of code, the ripple electronic switching circuit of double wave dicode two will be opened output voltage, the ripple of double wave dicode one electricity When sub switch circuit, the control end of the ripple electronic switching circuit of double wave dicode two are low potential, the ripple electronic cutting of double wave dicode one is powered-down Road, the ripple electronic switching circuit of double wave dicode two will be closed, Non voltage output.

Two output ends of double wave dicode electronic oscillating circuit on-off circuit are powered-down with the ripple electronic cutting of double wave dicode one respectively Road, two control ends of the ripple electronic switching circuit of double wave dicode two are connected.

The output of the ripple electronic switching circuit control end of double wave dicode electronic oscillating circuit on-off circuit connection double wave dicode one Hold during for high potential, the ripple electronic switching circuit of double wave dicode one will be opened output voltage, the ripple electronic switch of double wave dicode one Circuit output end encodes insulating electron circuit input end, the ripple of double wave dicode one transmitting insulating electron electricity with the ripple of double wave dicode one respectively Road input is connected.

The ripple of double wave dicode one encodes insulating electron circuit output end and the ripple coded electronic circuit power end phase of double wave dicode one Even, the transmitting of the ripple of double wave dicode one insulating electron circuit output end and the ripple launching electronics circuit unit power end phase of double wave dicode one Even.

The ripple coded electronic circuit of double wave dicode one proceeds by coding work, the ripple of double wave dicode one transmitting electricity after switching on power Sub-circuit unit begins preparing for carrying out transmitting work after switching on power；The ripple coded electronic circuit output end of double wave dicode one and double wave The ripple launching electronics circuit unit input of dicode one is connected, and the coding that the ripple coded electronic circuit code of double wave dicode one will be finished is defeated Go out to give the ripple launching electronics circuit unit of double wave dicode one, the ripple launching electronics circuit unit of double wave dicode one is immediately to emission.

The ripple coded electronic circuit ground of double wave dicode one is connected with double wave dicode battery power circuit ground wire；Double wave dicode one Ripple launching electronics circuit unit ground terminal is connected with double wave dicode battery power circuit ground terminal.

The output of the ripple electronic switching circuit control end of double wave dicode electronic oscillating circuit on-off circuit connection double wave dicode two End will for low potential when, the ripple electronic switching circuit of double wave dicode two will be closed Non voltage output.

The ripple electronic switching circuit output end of double wave dicode two is input into the ripple of double wave dicode two coding insulating electron circuit respectively End, the ripple of double wave dicode two transmitting insulating electron circuit input end is connected, the ripple of double wave dicode two coding insulating electron circuit output end It is connected with the ripple coded electronic circuit power end of double wave dicode two, the ripple coded electronic circuit ground of double wave dicode two is electric with double wave dicode Pond power circuit ground wire is connected；The ripple coded electronic circuit code output end of double wave dicode two and the ripple launching electronics of double wave dicode two electricity Road unit input is connected；The ripple of double wave dicode two launches insulating electron circuit output end and the ripple launching electronics circuit of double wave dicode two Unit power end is connected；The ripple launching electronics circuit unit ground terminal of double wave dicode two and double wave dicode battery power circuit ground terminal It is connected.

The ripple coded electronic circuit power end of double wave dicode two is equal with the ripple launching electronics circuit unit power end of double wave dicode two No-voltage do not work by without electric wave to emission.

When double wave dicode electronic oscillating circuit on-off circuit state overturns, double wave dicode electronic oscillating circuit switch When the output end of the ripple electronic switching circuit of circuit connection double wave dicode one is low potential, the ripple electronic switching circuit of double wave dicode one is closed Close Non voltage output.

The ripple coded electronic circuit power end of double wave dicode one is equal with the ripple launching electronics circuit unit power end of double wave dicode one No-voltage do not work by without electric wave to emission.

The output of the ripple electronic switching circuit control end of double wave dicode electronic oscillating circuit on-off circuit connection double wave dicode two Hold during for high potential, the ripple electronic switching circuit of double wave dicode two will be opened output voltage, the ripple electronic switch of double wave dicode two Circuit output end encodes insulating electron circuit input end, the ripple of double wave dicode two transmitting insulating electron electricity with the ripple of double wave dicode two respectively Road input is connected.

The ripple of double wave dicode two encodes insulating electron circuit output end and the ripple coded electronic circuit power end phase of double wave dicode two Even, the transmitting of the ripple of double wave dicode two insulating electron circuit output end and the ripple launching electronics circuit unit power end phase of double wave dicode two Even.

The ripple coded electronic circuit ground of double wave dicode two is connected with double wave dicode battery power circuit ground wire；Double wave dicode two Ripple launching electronics circuit unit ground terminal is connected with double wave dicode battery power circuit ground terminal.

The ripple coded electronic circuit of double wave dicode two proceeds by coding work, the ripple of double wave dicode two transmitting electricity after switching on power Sub-circuit unit begins preparing for carrying out transmitting work after switching on power；The ripple coded electronic circuit code output end of double wave dicode two with The ripple launching electronics circuit unit input of double wave dicode two is connected, and the coding that the ripple coded electronic circuit of double wave dicode two will be finished is defeated Go out to give the ripple launching electronics circuit unit of double wave dicode two, the ripple launching electronics circuit unit of double wave dicode two is immediately to emission.

Double wave dicode electronic oscillating circuit on-off circuit so alternately and repeatedly works, and realizes a kind of double wave dicode transmitting and sets Two kinds of carrier waves, two kinds of alternations of encoded signal in meter scheme, realizing a kind of double wave dicode transmitting design carries out double wave The transmitting of dicode.

It is the ripple launching electronics circuit of double wave dicode one, the ripple launching electronics circuit of double wave dicode two in scheme one.

It is the ripple launching electronics circuit unit of double wave dicode one, the ripple launching electronics circuit list of double wave dicode two in scheme two Unit.

The ripple coded electronic circuit output end of double wave dicode one launches input circuit input with one ripple of double wave dicode one respectively, The transmitting input circuit input of one ripple of double wave dicode two is connected；The ripple coded electronic circuit of double wave dicode one

The coding that the ripple coded electronic circuit of double wave dicode two will be finished is exported gives the ripple launching electronics circuit unit of double wave dicode one, i.e., Export simultaneously and launch input circuit input to one ripple of double wave dicode one, one ripple of double wave dicode two launches input circuit input, One ripple of double wave dicode one launches output circuit, and the transmitting output circuit of one ripple of double wave dicode two is defeated double to double wave by signal transmission respectively The code transmitting output circuit of one ripple one, the transmitting output circuit of one ripple of double wave dicode two, the transmitting output circuit of one ripple of double wave dicode one is double One ripple of ripple dicode two launches output circuit upon receipt of the signals immediately to emission.

The coding that the ripple coded electronic circuit of double wave dicode two will be finished is exported gives the ripple launching electronics circuit list of double wave dicode two Unit, i.e., export and launch input circuit input to two ripple of double wave dicode one simultaneously, and the transmitting input circuit of two ripple of double wave dicode two is defeated Enter end, the transmitting output circuit of two ripple of double wave dicode one, output circuit is defeated respectively gives signal transmission for the transmitting of two ripple of double wave dicode two Two ripple of double wave dicode one launches output circuit, the transmitting output circuit of two ripple of double wave dicode two, the transmitting output of two ripple of double wave dicode one Circuit, two ripple of double wave dicode two launches output circuit upon receipt of the signals immediately to emission.

Double wave dicode electronic oscillating circuit on-off circuit so alternately and repeatedly works, and realizes a kind of double wave dicode transmitting and sets Two kinds of carrier waves, two kinds of alternations of encoded signal in meter scheme, realizing double wave dicode remote control transmitter carries out double wave dicode Transmitting, until untill double wave dicode button switch disconnects.

The present invention has following outstanding advantages after implementing：

1st, double wave dicode remote control transmitter uses unicast dicode due to putting into and releasing ordinary circumstance；Although unicast but its carrier wave Radio wave and infrared wave can flexibly select shortly, the coding of two is again different, so using decoder, grabbing a yard device Catch strong with radio scanner criminal offence resistivity.2nd, double wave dicode remote control transmitter and can shut middle control after whole car doors Lock is automatically switched off, and warning system automatic throw-in device is used cooperatively, and convenient, modern sense is strong.Effectively raise automotive safety system Number, prevents the criminal offence using interference unit, decoder etc crime one's share of expenses for a joint undertaking, is that car owner reduces unnecessary economic loss.

3rd, double wave dicode remote control transmitter can be arranged on a launch-box, easy to use.

4th, simple, easily production is installed, stable and reliable for performance.

Brief description of the drawings

Fig. 1 is the frame principle figure of double wave dicode remote control transmitter one.

In figure：Square frame 1, double wave dicode battery supply；Square frame 2, double wave dicode button switch；Square frame 3, double wave dicode electronics Oscillating circuit is switched；Square frame 4, the ripple electronic switch of double wave dicode one；Square frame 5, the ripple of double wave dicode one coding insulating electron circuit；Side Frame 6, the ripple of double wave dicode one transmitting insulating electron circuit；Square frame 7, the ripple coded electronic circuit of double wave dicode one；Square frame 8, double wave is double Code one ripple transmitting pre-amplification circuit, square frame 9, the ripple launching electronics circuit of double wave dicode one；Square frame 10, the ripple of expression double wave dicode two Electronic switch；Square frame 11, the ripple of double wave dicode two coding insulating electron circuit；Square frame 12, the ripple of double wave dicode two transmitting insulating electron Circuit；Square frame 13, the ripple coded electronic circuit of double wave dicode two, square frame 14, the ripple of double wave dicode two transmitting pre-amplification circuit；Square frame 15th, the ripple launching electronics circuit of double wave dicode two.

Fig. 2 is the frame principle figure of double wave dicode remote control transmitter two.

In figure：Square frame 1-2, double wave dicode battery power circuit；Square frame 2-2, double wave dicode button switch circuit；Square frame 3- 2nd, double wave dicode electronic oscillating circuit on-off circuit；Square frame 4-2, the ripple electronic switching circuit of double wave dicode one；Square frame 5, double wave is double Code one ripple coding insulating electron circuit；Square frame 6, the ripple of double wave dicode one transmitting insulating electron circuit；Square frame 7, the ripple of double wave dicode one Coded electronic circuit；Square frame 8-2, the launching electronics circuit of one ripple of expression double wave dicode one；Square frame 9-2, the ripple of expression double wave dicode one Two launching electronics circuits；Square frame 10-2, the ripple electronic switching circuit of expression double wave dicode two；Square frame 11, the ripple of double wave dicode two coding Insulating electron circuit；Square frame 12, the ripple of double wave dicode two transmitting insulating electron circuit；Square frame 13, the ripple coded electronic of double wave dicode two Circuit, square frame 15-1, the launching electronics circuit of two ripple of double wave dicode one；Square frame 14-1, the launching electronics circuit of two ripple of double wave dicode two； Square frame 20, one yard of launching electronics circuit unit of double wave dicode；Square frame 21, the ripple launching electronics circuit unit of expression double wave dicode two.

Fig. 3 is the ripple launching electronics circuit unit schematic diagram of double wave dicode one.

In figure：Square frame 20, one yard of launching electronics circuit unit of double wave dicode；Square frame 8-2, the ripple one of double wave dicode one launch electricity Sub-circuit；Square frame 8-2-1, the transmitting input circuit of one ripple of double wave dicode one；Square frame 8-2-2, the ripple one of expression double wave dicode one are launched Output circuit；Square frame 9-2, the launching electronics circuit of one ripple of double wave dicode two；Square frame 9-2-1, the transmitting input of one ripple of double wave dicode two Circuit；Square frame 9-2-2, one ripple of expression double wave dicode two launch output circuit.

Fig. 4 is the ripple launching electronics circuit unit schematic diagram of double wave dicode two.

In figure：Square frame 21, the ripple launching electronics circuit unit of double wave dicode two；Square frame 15-2, the ripple one of double wave dicode two are launched Electronic circuit；Square frame 15-2-1, the transmitting input circuit of two ripple of double wave dicode one；Square frame 15-2-2, the ripple one of double wave dicode two are launched Output circuit；Square frame 14-1, the launching electronics circuit of two ripple of double wave dicode two；Square frame 14-1-1, the ripple two of double wave dicode two launch defeated Enter circuit；Square frame 14-1-2, the transmitting output circuit of two ripple of double wave dicode two.

Specific embodiment

Fig. 1, Fig. 2, a kind of each mode for representing the specific implementation of double wave dicode remote control transmitter, its specific embodiment are basic It is identical.

First, circuit control panel is made：Electronic control panel is made according to the relation indicated in figure first, and electronics control will be made Making sheet, loads in the launch-box supporting with it.

2nd, according to Fig. 1, Fig. 2, to circuit control panel plug-in unit welding is carried out.

3rd, check and hot- line test.

Associated contacts are checked with avometer, or oscillograph.

1st, double wave dicode button switch is checked with ohmmeter first；Double wave dicode button is pressed or decontroled with hand to open Close；With ohm table look-up double wave dicode button switch input, whether signal output part break-make is good.

2nd, energization inspection, debugging are carried out to making electronic control panel.

（1）, billboard, check element whether weld correctly, whether there is rosin joint, solder skip, short circuit phenomenon.

（2）, billboard check it is errorless after, ensure it without short circuit with ohm table look-up electronic control panel zero line and ground terminal Switch on power after phenomenon.

（3）, with avometer or oscillograph to checking that making electronic control panel carries out energization inspection, debugging, by avometer just Pole or oscillograph positive signal input test respectively each unit circuit exit point or with input endpoint junction.

（4）, inspection to double wave dicode electronic oscillating circuit switch, be input into avometer positive pole or oscillograph positive signal End two output ends that test double wave dicode electronic oscillating circuit is switched respectively, double wave dicode electronic oscillating circuit switch connection electricity To be started working behind source, be vibrated；Double wave dicode electricity is tested respectively with avometer positive pole or oscillograph positive signal input Two output ends of sub- oscillating circuit switch will respectively export height or two electric potential signals high low each other each other；If detection Less than, should check whether element insertion made a mistake with welding.

（5）, inspection to the ripple electronic switch of double wave dicode one and the ripple electronic switch of double wave dicode two.

With avometer positive pole or oscillograph positive signal input test respectively the ripple electronic switch of double wave dicode one with it is double The power end of the ripple electronic switch of ripple dicode two is connected after having operating voltage, is input into avometer positive pole or oscillograph positive signal The control end and output end to the ripple electronic switch of double wave dicode one with the ripple electronic switch of double wave dicode two are tested in end respectively, and double wave is double When the control end of code one ripple electronic switch and the ripple electronic switch of double wave dicode two is high potential, the ripple electronic switch of double wave dicode one with The output end of the ripple electronic switch of double wave dicode two has voltage output, the ripple electronic switch of double wave dicode one and the ripple electronics of double wave dicode two When the control end of switch is low potential, the ripple electronic switch of double wave dicode one whether there is with the output end of the ripple electronic switch of double wave dicode two Pressure output.

If can't detect, should check whether that element insertion makes a mistake with welding.

（6）, insulating electron circuit is encoded to the ripple of double wave dicode one coding insulating electron circuit and the ripple of double wave dicode two, it is and double The ripple of ripple dicode one is launched insulating electron circuit and is checked with the ripple of double wave dicode two transmitting insulating electron circuit；

Oscillograph positive signal input is tested the ripple of double wave dicode one coding insulating electron circuit and is compiled with the ripple of double wave dicode two respectively Code insulating electron circuit, it is defeated with the ripple of double wave dicode two transmitting insulating electron circuit that the ripple of double wave dicode one launches insulating electron circuit Enter end and output end, when the ripple of double wave dicode one coding insulating electron circuit and the ripple of double wave dicode two encode insulating electron circuit, and The ripple of double wave dicode one launches insulating electron circuit has signal input with the input of the ripple of double wave dicode two transmitting insulating electron circuit When, the ripple of double wave dicode one coding insulating electron circuit encodes insulating electron circuit, and the ripple of double wave dicode one with the ripple of double wave dicode two Transmitting insulating electron circuit is surely tested to identical signal with the output end one of the ripple of double wave dicode two transmitting insulating electron circuit； If can't detect, should check whether that welding makes a mistake or component wear.

（7）, the ripple coded electronic circuit of double wave dicode one and the ripple coded electronic circuit of double wave dicode two checked；

With avometer positive pole or oscillograph positive signal input test respectively the ripple coded electronic circuit of double wave dicode one with it is double The power end of the ripple coded electronic circuit of ripple dicode two is connected after having operating voltage, is input into oscillograph positive signal double in double wave One ripple coded electronic circuit of code and the output end of the ripple coded electronic circuit of double wave dicode two, normally arrive its encoded signal by test； If can't detect, should check whether that welding makes a mistake or component wear.

（8）, to the ripple launching electronics circuit of one double wave dicode of double wave dicode remote control transmitter one, the ripple of double wave dicode two transmitting electricity The inspection of sub-circuit, the ripple launching electronics of double wave dicode one are tested with avometer positive pole or oscillograph positive signal input respectively Circuit, the power end of the ripple launching electronics circuit of double wave dicode two are connected after having operating voltage, the ripple launching electronics of double wave dicode one Circuit, the ripple launching electronics circuit of double wave dicode two are started working, when the ripple coded electronic circuit of double wave dicode one and double wave dicode two Ripple coded electronic circuit is compiled to the ripple launching electronics circuit of double wave dicode one, the input of the ripple launching electronics circuit input end of double wave dicode two After code signal, it is input into the ripple launching electronics circuit of double wave dicode one, the ripple launching electronics of double wave dicode two with oscillograph positive signal The output end of circuit, normally by test to its transmission signal；If can't detect, should check whether welding make a mistake or Unit.

（9）, in double wave dicode remote control transmitter two the ripple launching electronics circuit unit of double wave dicode one, double wave dicode two The inspection of ripple launching electronics circuit unit.

Because the ripple launching electronics circuit unit of double wave dicode one is by the launching electronics circuit of one ripple of double wave dicode one, double wave dicode The launching electronics circuit of one ripple two is constituted.

So with use avometer positive pole or oscillograph positive signal input respectively to the ripple launching electronics of double wave dicode one The input and output end of each built-up circuit are tested in circuit unit and the ripple launching electronics circuit unit of double wave dicode two.

The ripple launching electronics circuit unit of double wave dicode one, the power end of the ripple launching electronics circuit unit of double wave dicode two are connected After having operating voltage, the ripple launching electronics circuit unit of double wave dicode one, the ripple launching electronics circuit unit of double wave dicode two start Work, when the ripple coded electronic circuit of double wave dicode one and the ripple coded electronic circuit of double wave dicode two launch electricity to the ripple of double wave dicode one After sub-circuit unit, the ripple launching electronics circuit unit input incoming coded signal of double wave dicode two, oscillograph positive signal is used It is input into the ripple launching electronics circuit unit of double wave dicode one, the ripple of double wave dicode one of the launching electronics circuit of one ripple of double wave dicode one One transmitting input circuit, the transmitting output circuit of one ripple of double wave dicode one；The double wave of the launching electronics circuit of one ripple of double wave dicode two is double The code transmitting of one ripple two input circuit, the input of the transmitting output circuit of one ripple of double wave dicode two and output end, it is arrived just by test Normal transmission signal；If can't detect, should check whether that welding makes a mistake or component wear.

Claims

1. double wave dicode remote control transmitter, it is characterized in that：By double wave dicode remote control transmitter one, double wave dicode remote control transmitter two Constitute respectively；

Double wave dicode remote control transmitter one is by double wave dicode battery supply, double wave dicode button switch, double wave dicode electronic Contactor；

The ripple electronic switch of double wave dicode one, the ripple of double wave dicode one coding insulating electron circuit, the ripple coded electronic of double wave dicode one electricity Road, the ripple of double wave dicode one transmitting insulating electron circuit, the ripple of double wave dicode one transmitting pre-amplification circuit, the transmitting of the ripple of double wave dicode one Electronic circuit；

The ripple electronic switch of double wave dicode two, the ripple of double wave dicode two coding insulating electron circuit, the ripple coded electronic of double wave dicode two electricity Road, the ripple of double wave dicode two transmitting insulating electron circuit, the ripple of double wave dicode two transmitting pre-amplification circuit, the transmitting of the ripple of double wave dicode two Electronic circuit is constituted；

Double wave dicode button switch one end connects double wave dicode battery supply positive pole, double wave dicode button switch other end difference With double wave dicode electronic oscillating circuit Switching Power Supply end,_,The ripple electronic switch power end of double wave dicode one, the ripple electronics of double wave dicode two Switching Power Supply end connects；Double wave dicode electronic oscillating circuit switchs ground wire,_,The ripple electronic switch ground wire of double wave dicode one,_,Double wave is double Two ripple electronic switch ground wires of code are connected with double wave dicode battery supply ground wire respectively；

Double wave dicode electronic oscillating circuit switch two output ends respectively with the ripple electronic switch of double wave dicode one, double wave dicode two Two control ends of ripple electronic switch are connected；

The ripple electronic switch output end of double wave dicode one encodes insulating electron circuit input end with the ripple of double wave dicode one respectively, and double wave is double Code one ripple transmitting insulating electron circuit input end is connected, and the ripple of double wave dicode one encodes insulating electron circuit output end and double wave dicode One ripple coded electronic circuit power end is connected, the ripple coded electronic circuit ground of double wave dicode one and double wave dicode battery supply ground wire It is connected；The ripple coded electronic circuit output end of double wave dicode one is connected with the ripple of double wave dicode one transmitting pre-amplification circuit input, The ripple of double wave dicode one transmitting pre-amplification circuit output end is connected with the ripple launching electronics circuit input end of double wave dicode one；Double wave is double Code one ripple transmitting insulating electron circuit output end launches pre-amplification circuit power end, double wave dicode with the ripple of double wave dicode one respectively One ripple launching electronics circuit power end is connected；The ripple of double wave dicode one launches pre-amplification circuit ground terminal, the ripple of double wave dicode one hair Radio sub-circuit ground terminal is connected with double wave dicode battery supply ground terminal respectively；

The ripple electronic switch output end of double wave dicode two encodes insulating electron circuit input end with the ripple of double wave dicode two respectively, and double wave is double Code two ripples transmitting insulating electron circuit input end is connected, and the ripple of double wave dicode two encodes insulating electron circuit output end and double wave dicode Two ripple coded electronic circuit power ends are connected, the ripple coded electronic circuit ground of double wave dicode two and double wave dicode battery supply ground wire It is connected；The ripple coded electronic circuit output end of double wave dicode two is connected with the ripple of double wave dicode two transmitting pre-amplification circuit input, The ripple of double wave dicode one transmitting pre-amplification circuit output end is connected with the ripple launching electronics circuit input end of double wave dicode two；Double wave is double Code two ripples transmitting insulating electron circuit output end launches pre-amplification circuit power end, double wave dicode with the ripple of double wave dicode one respectively Two ripple launching electronics circuit power ends are connected；The ripple of double wave dicode one launches pre-amplification circuit ground terminal, the ripple of double wave dicode two hair Radio sub-circuit ground terminal is connected with double wave dicode battery supply ground terminal respectively；

Double wave dicode remote control transmitter two is by double wave dicode battery power circuit, double wave dicode button switch circuit, double wave dicode Electronic oscillating circuit on-off circuit；

The ripple electronic switching circuit of double wave dicode one, the ripple of double wave dicode one coding insulating electron circuit, the ripple of double wave dicode one coding electricity Sub-circuit, the ripple of double wave dicode one transmitting insulating electron circuit, one yard of launching electronics circuit unit of double wave dicode；

The ripple electronic switching circuit of double wave dicode two, the ripple of double wave dicode two coding insulating electron circuit, the ripple of double wave dicode two coding electricity Sub-circuit, the ripple of double wave dicode two transmitting insulating electron circuit, the ripple launching electronics circuit unit of double wave dicode two composition；

The ripple launching electronics circuit unit of double wave dicode one is sent out by the launching electronics circuit of one ripple of double wave dicode one, the ripple two of double wave dicode one Radio sub-circuit is constituted；

The launching electronics circuit of one ripple of double wave dicode one launches input circuit, the transmitting of one ripple of double wave dicode one by the ripple one of double wave dicode one Output circuit is constituted；

The launching electronics circuit of one ripple of double wave dicode two launches input circuit, the transmitting of one ripple of double wave dicode two by the ripple two of double wave dicode one Output circuit is constituted；

The ripple launching electronics circuit unit of double wave dicode two is sent out by the launching electronics circuit of two ripple of double wave dicode one, the ripple two of double wave dicode two Radio sub-circuit is constituted；

The launching electronics circuit of two ripple of double wave dicode one launches input circuit, the transmitting of two ripple of double wave dicode one by the ripple one of double wave dicode two Output circuit is constituted；

The launching electronics circuit of two ripple of double wave dicode two launches input circuit, the transmitting of two ripple of double wave dicode two by the ripple two of double wave dicode two Output circuit is constituted；

Double wave dicode button switch circuit on one side connects double wave dicode battery power circuit positive pole, double wave dicode button switch electricity The road other end respectively with double wave dicode electronic oscillating circuit on-off circuit power end,_,The ripple electronic switching circuit of double wave dicode one electricity Road power end, the connection of the ripple electronic switching circuit circuit power end of double wave dicode two；Double wave dicode electronic oscillating circuit on-off circuit Ground wire,_,The ripple electronic switching circuit ground wire of double wave dicode one,_,The ripple electronic switching circuit ground wire of double wave dicode two respectively with double wave dicode Battery power circuit ground wire is connected；

Two output ends of double wave dicode electronic oscillating circuit on-off circuit connect respectively the ripple electronic switching circuit of double wave dicode one, Two control ends of the ripple electronic switching circuit of double wave dicode two are connected；

The ripple electronic switching circuit output end of double wave dicode one encodes insulating electron circuit input end with the ripple of double wave dicode one respectively, double The ripple of ripple dicode one transmitting insulating electron circuit input end is connected, the ripple of double wave dicode one coding insulating electron circuit output end and double wave The ripple coded electronic circuit power end of dicode one is connected, the ripple coded electronic circuit ground of double wave dicode one and double wave dicode battery supply Circuit ground is connected；The ripple coded electronic circuit output end of double wave dicode one is input into the ripple launching electronics circuit unit of double wave dicode one End is connected；Unicast one yard of transmitting insulating electron circuit output end and the ripple launching electronics circuit unit power end phase of double wave dicode one Even；The ripple launching electronics circuit unit ground terminal of double wave dicode one is connected with double wave dicode battery supply ground terminal；

The launching electronics circuit of one ripple of double wave dicode one launches input circuit, the transmitting of one ripple of double wave dicode one by the ripple one of double wave dicode one Output circuit is constituted；The power end of the transmitting input circuit of one ripple of double wave dicode one and the transmitting output circuit electricity of one ripple of double wave dicode one Source is connected, and the ground terminal of the transmitting input circuit of one ripple of double wave dicode one launches output circuit ground terminal with one ripple of double wave dicode one It is connected, the output end of the transmitting input circuit of one ripple of double wave dicode one launches output circuit input phase with one ripple of double wave dicode one Even；

The launching electronics circuit of one ripple of double wave dicode two launches input circuit, the transmitting of one ripple of double wave dicode two by the ripple two of double wave dicode one Output circuit is constituted；The power end of the transmitting input circuit of one ripple of double wave dicode two and the transmitting output circuit electricity of one ripple of double wave dicode two Source is connected, and the ground terminal of the transmitting input circuit of one ripple of double wave dicode two launches output circuit ground terminal with one ripple of double wave dicode two It is connected, the output end of the transmitting input circuit of one ripple of double wave dicode two launches output circuit input phase with one ripple of double wave dicode two Even；

The ripple coded electronic circuit output end of double wave dicode one launches input circuit input, double wave with one ripple of double wave dicode one respectively The transmitting input circuit input of one ripple of dicode two is connected；

The ripple electronic switching circuit output end of double wave dicode two encodes insulating electron circuit input end with the ripple of double wave dicode two respectively, double The ripple of ripple dicode two transmitting insulating electron circuit input end is connected, the ripple of double wave dicode two coding insulating electron circuit output end and double wave The ripple coded electronic circuit power end of dicode two is connected, the ripple coded electronic circuit ground of double wave dicode two and double wave dicode battery supply Circuit；

Ground wire is connected；The ripple coded electronic circuit code output end of double wave dicode two and the ripple launching electronics circuit unit of double wave dicode two Input is connected；The ripple of double wave dicode two launches insulating electron circuit output end with the ripple launching electronics circuit unit of double wave dicode two electricity Source is connected；The ripple launching electronics circuit unit ground terminal of double wave dicode two is connected with double wave dicode battery supply ground terminal；

The power end of the transmitting input circuit of one ripple of double wave dicode one is connected with the transmitting output circuit power end of one ripple of double wave dicode one, The ground terminal of the transmitting input circuit of one ripple of double wave dicode one is connected with the transmitting output circuit ground terminal of one ripple of double wave dicode one, double wave The output end of the transmitting input circuit of one ripple of dicode one is connected with the transmitting output circuit input of one ripple of double wave dicode one；

The power end of the transmitting input circuit of one ripple of double wave dicode two is connected with the transmitting output circuit power end of one ripple of double wave dicode two, The ground terminal of the transmitting input circuit of one ripple of double wave dicode two is connected with the transmitting output circuit ground terminal of one ripple of double wave dicode two, double wave The output end of the transmitting input circuit of one ripple of dicode two is connected with the transmitting output circuit input of one ripple of double wave dicode two；

The power end of the transmitting input circuit of two ripple of double wave dicode one is connected with the transmitting output circuit power end of two ripple of double wave dicode one, The ground terminal of the transmitting input circuit of two ripple of double wave dicode one is connected with the transmitting output circuit ground terminal of two ripple of double wave dicode one, double wave The output end of the transmitting input circuit of two ripple of dicode one is connected with the transmitting output circuit input of two ripple of double wave dicode one；

The power end of the transmitting input circuit of two ripple of double wave dicode two is connected with the transmitting output circuit power end of two ripple of double wave dicode two, The ground terminal of the transmitting input circuit of two ripple of double wave dicode two is connected with the transmitting output circuit ground terminal of two ripple of double wave dicode two, double wave The output end of the transmitting input circuit of two ripple of dicode two is connected with the transmitting output circuit input of two ripple of double wave dicode two；

The ripple coded electronic circuit output end of double wave dicode two launches input circuit input, double wave with two ripple of double wave dicode one respectively The transmitting input circuit input of two ripple of dicode two is connected.

2. double wave dicode remote control transmitter according to claim 1, it is characterized in that：The double wave of double wave dicode remote control transmitter For radio wave is combined with infrared wave.

3. double wave dicode remote control transmitter according to claim 1, it is characterized in that：The double wave of double wave dicode remote control transmitter For infrared wave is combined with ultrasonic wave.

4. double wave dicode remote control transmitter according to claim 1, it is characterized in that：The dicode of double wave dicode remote control transmitter For regular coding is combined with rolling coding.

5. double wave dicode remote control transmitter according to claim 1, it is characterized in that：The dicode of double wave dicode remote control transmitter Or for rolling coding is combined with rolling coding.