CN106920376A - A kind of double wave dicode receives design - Google Patents

Abstract

A kind of double wave dicode receives design, belong to electronic technology field, it is main that battery supply is received by double wave dicode, the ripple receiving circuit unit of double wave dicode one, the ripple receiving circuit unit of double wave dicode two, double wave dicode constantly controls circuit, double wave dicode to receive identification electronic circuit, and double wave dicode receives execution circuit composition；By the ripple receiving circuit of double wave dicode one, double wave dicode receives a wave decoder electronic circuit to the ripple receiving circuit unit of double wave dicode one, and double wave dicode receives ripple output electronic circuit composition；By the ripple receiving circuit of double wave dicode two, unicast dicode receives two ripple coded electronic circuits to the ripple receiving circuit unit of double wave dicode two, and unicast dicode receives two ripples output electronic circuit composition；During double wave dicode, when control circuit by double wave dicode receive sequential control circuit, double wave dicode receive time control circuit, double wave dicode receive when meter execution circuit composition；It is used cooperatively with a kind of double wave dicode transmitting design, stable and reliable for performance, and simple, easily production is installed.

Description

A kind of double wave dicode receives design

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.Make vapour The order that car cannot lock a door, causes the false lock phenomenon of vehicle, dangerous, causes very big hidden danger.Particularly some lawless persons go back The special electrical devices of " reproducer ", when owner is when remote controlled locking is used, this electronic instrument can be also with a kind of " grabbing a yard device " The radiofrequency signal and code signal of remote control can be captured, after treating that owner leaves, lawless person will be trusted courageously with the instrument Copy code signal, carry out unlocking theft, the major safety risks of unnecessary economic loss are caused to car owner；List is just Automobile product one and enormous amount, there is great market.

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

For how anti-tampering device is disturbed, motor central lock, car alarm, the car door pass that can be invented using our company Close automatic throw-in equipment can effectively anti-lawless person the generation for causing the false lock phenomenon of vehicle is disturbed with interference unit.

And to prevent lawless person from will be trusted with the instrument and audaciously copy code signal, unlocking theft is carried out, Above-mentioned purpose is reached, 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, develops a kind of double wave dicode and receives design, its receive carrier wave and The various change selections of mutually increase of coding, improve secret and safe.

The content of the invention

A kind of unicast dicode receives design and used cooperatively with a kind of double wave dicode transmitting design also has very high It is anti-to crack ability, so that abundant transmitting coding techniques.So this enterprise has made system innovation, the scheme of the invention of system is proposed, into It is the protection system of series.With easily production, operate has very big competitiveness well in market competition.

1st, a kind of double wave dicode receives design and receives design one by a kind of double wave dicode, and a kind of double wave dicode is received and set Meter scheme two is constituted.

A kind of double wave dicode receives design one and receives battery supply, the ripple receiving circuit of double wave dicode one by double wave dicode Unit, the ripple receiving circuit unit of double wave dicode two, double wave dicode receives identification electronic circuit, and double wave dicode receives execution circuit group Into.

By the ripple receiving circuit of double wave dicode one, double wave dicode receives wave decoder electricity to the ripple receiving circuit unit of double wave dicode one Sub-circuit, double wave dicode receives ripple output electronic circuit composition.

By the ripple receiving circuit of double wave dicode two, unicast dicode receives two ripples coding electricity to the ripple receiving circuit unit of double wave dicode two Sub-circuit, unicast dicode receives two ripples output electronic circuit composition.

Double wave dicode receive battery supply positive pole respectively with the ripple receiving circuit unit power end of double wave dicode one, double wave dicode Two ripple receiving circuit unit power ends, double wave dicode receives identification electronic circuit power end, and double wave dicode receives execution circuit electricity Source is connected.

Double wave dicode receive battery supply ground terminal respectively with the ripple receiving circuit unit ground terminal of double wave dicode one, double wave is double Two ripple receiving circuit unit ground terminals of code, double wave dicode receives identification electronic circuit ground terminal, and double wave dicode receives execution circuit Ground terminal is connected.

The ripple receiving circuit power end of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a ripple Decoding electronic circuitry power end, double wave dicode receives ripple output electronic circuit power end and is connected with each other turns into the ripple of double wave dicode one Receiving circuit unit power end.

The ripple receiving circuit ground terminal of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a ripple Decoding electronic circuitry ground terminal, double wave dicode receives ripple output electronic circuit ground terminal and is connected with each other turns into the ripple of double wave dicode one Receiving circuit unit ground terminal.

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit output end and receives one with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives a wave decoder electronic circuit output end and receives one with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives ripple output electronic circuit output end and received with double wave dicode to be known The other input of electronic circuit one is connected.

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit output ends and receives two with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives two wave decoder electronic circuit output ends and receives two with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives two ripples output electronic circuit output end and received with double wave dicode to be known The other input of electronic circuit one is connected.

Double wave dicode receives identification electronic circuit output end and is connected with double wave dicode reception execution circuit input.

A kind of double wave dicode receives design two and receives battery supply, the ripple receiving circuit of double wave dicode one by double wave dicode Unit, the ripple receiving circuit unit of double wave dicode two, double wave dicode constantly controls circuit, double wave dicode to receive identification electronic circuit, Double wave dicode receives execution circuit composition.

By the ripple receiving circuit of double wave dicode one, double wave dicode receives wave decoder electricity to the ripple receiving circuit unit of double wave dicode one Sub-circuit, double wave dicode receives ripple output electronic circuit composition.

By the ripple receiving circuit of double wave dicode two, unicast dicode receives two ripples coding electricity to the ripple receiving circuit unit of double wave dicode two Sub-circuit, unicast dicode receives two ripples output electronic circuit composition.

Double wave dicode constantly controls circuit to receive sequential control circuit by double wave dicode, and double wave dicode receives timing control electricity Road, meter execution circuit composition when double wave dicode is received.

Double wave dicode receives sequential control circuit power end, and double wave dicode receives time control circuit power end, and double wave is double Meter execution circuit power end is connected to double wave dicode and constantly controls circuit power end when code is received.

Double wave dicode receives sequential control circuit ground terminal, and double wave dicode receives time control circuit ground terminal, and double wave is double Meter execution circuit ground terminal is connected to double wave dicode and constantly controls circuit ground end when code is received.

Double wave dicode receives sequential control circuit input, and double wave dicode receives time control circuit input and is connected with each other For double wave dicode constantly controls circuit input end, double wave dicode constantly to control circuit input end to receive ripple output with double wave dicode Electronic circuit output end is connected.

Double wave dicode receives meter execution circuit unlatching input when sequential control circuit output end is received with ripple dicode and is connected, Double wave dicode receives meter execution circuit closing input when time control circuit output end is received with ripple dicode and is connected, and ripple dicode connects Time receiving meter execution circuit output end is the output end that double wave dicode constantly controls circuit, double wave dicode constantly control circuit output end Two ripple coded electronic circuit chip select ends are received with double wave dicode to be connected.

Double wave dicode receive battery supply positive pole respectively with the ripple receiving circuit unit power end of double wave dicode one, double wave dicode Two ripple receiving circuit unit power ends, double wave dicode constantly controls circuit power end, and double wave dicode receives identification electronic circuit electricity Source, double wave dicode receives execution circuit power end and is connected.

Double wave dicode receive battery supply ground terminal respectively with the ripple receiving circuit unit ground terminal of double wave dicode one, double wave is double Two ripple receiving circuit unit ground terminals of code, double wave dicode constantly controls circuit ground end, and double wave dicode receives identification electronic circuit Ground terminal, double wave dicode receives execution circuit ground terminal and is connected.

The ripple receiving circuit power end of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a ripple Decoding electronic circuitry power end, double wave dicode receives ripple output electronic circuit power end and is connected with each other turns into the ripple of double wave dicode one Receiving circuit unit power end.

The ripple receiving circuit ground terminal of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a ripple Decoding electronic circuitry ground terminal, double wave dicode receives ripple output electronic circuit ground terminal and is connected with each other turns into the ripple of double wave dicode one Receiving circuit unit ground terminal.

The ripple receiving circuit power end of double wave dicode two in the ripple receiving circuit unit of double wave dicode two, double wave dicode receives two ripples Decoding electronic circuitry power end, double wave dicode receives two ripples output electronic circuit power end and is connected with each other turns into the ripple of double wave dicode two Receiving circuit unit power end.

The ripple receiving circuit ground terminal of double wave dicode two in the ripple receiving circuit unit of double wave dicode two, double wave dicode receives two ripples Decoding electronic circuitry ground terminal, double wave dicode receives two ripples output electronic circuit ground terminal and is connected with each other turns into the ripple of double wave dicode two Receiving circuit unit ground terminal.

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit output end and receives one with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives a wave decoder electronic circuit output end and receives one with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives ripple output electronic circuit output end and connect with double wave dicode respectively The identification input of electronic circuit one is received, double wave dicode constantly controls circuit input end to be connected.

Constantly control circuit output end is connected double wave dicode with two ripple coded electronic circuit chip select ends of double wave dicode reception.

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit output ends and receives two with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives two wave decoder electronic circuit output ends and receives two with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives two ripples output electronic circuit output end and received with double wave dicode to be known The other input of electronic circuit one is connected.

Double wave dicode receives identification electronic circuit output end and is connected with double wave dicode reception execution circuit input.

2nd, a kind of double wave of double wave dicode reception scheme is combined for radio wave with infrared wave.

3rd, a kind of double wave of double wave dicode reception scheme is combined for infrared wave with ultrasonic wave.

4th, a kind of double wave of double wave dicode reception scheme is combined for radio wave with ultrasonic wave.

5th, a kind of dicode of double wave dicode reception scheme is combined for regular coding with rolling coding.

6th, the dicode of a kind of double wave dicode reception scheme or for rolling coding is combined with rolling coding.

Its operation principle is as follows：

A kind of double wave dicode receives design and receives design one by a kind of double wave dicode, and a kind of double wave dicode receives design Scheme two is constituted.

A kind of double wave dicode receives design one and receives battery supply, the ripple receiving circuit of double wave dicode one by double wave dicode Unit, the ripple receiving circuit unit of double wave dicode two, double wave dicode receives identification electronic circuit, and double wave dicode receives execution circuit group Into.

By the ripple receiving circuit of double wave dicode one, double wave dicode receives wave decoder electricity to the ripple receiving circuit unit of double wave dicode one Sub-circuit, double wave dicode receives ripple output electronic circuit composition.

By the ripple receiving circuit of double wave dicode two, double wave dicode receives two ripples coding electricity to the ripple receiving circuit unit of double wave dicode two Sub-circuit, double wave dicode receives two ripples output electronic circuit composition.

Double wave dicode receive battery supply positive pole respectively with the ripple receiving circuit unit power end of double wave dicode one, double wave dicode Two ripple receiving circuit unit power ends, double wave dicode receives identification electronic circuit power end, and double wave dicode receives execution circuit electricity Source is connected.

Double wave dicode receive battery supply ground terminal respectively with the ripple receiving circuit unit ground terminal of double wave dicode one, double wave is double Two ripple receiving circuit unit ground terminals of code, double wave dicode receives identification electronic circuit ground terminal, and double wave dicode receives execution circuit Ground terminal is connected.

The ripple receiving circuit power end of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a ripple Decoding electronic circuitry power end, double wave dicode receives ripple output electronic circuit power end and is connected with each other turns into the ripple of double wave dicode one Receiving circuit unit power end.

The ripple receiving circuit ground terminal of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a ripple Decoding electronic circuitry ground terminal, double wave dicode receives ripple output electronic circuit ground terminal and is connected with each other turns into the ripple of double wave dicode one Receiving circuit unit ground terminal.

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit output end and receives one with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives a wave decoder electronic circuit output end and receives one with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives ripple output electronic circuit output end and received with double wave dicode to be known The other input of electronic circuit one is connected.

The ripple receiving circuit power end of double wave dicode two in the ripple receiving circuit unit of double wave dicode two, double wave dicode receives two ripples Decoding electronic circuitry power end, double wave dicode receives two ripples output electronic circuit power end and is connected with each other turns into the ripple of double wave dicode two Receiving circuit unit power end.

The ripple receiving circuit ground terminal of double wave dicode two in the ripple receiving circuit unit of double wave dicode two, double wave dicode receives two ripples Decoding electronic circuitry ground terminal, double wave dicode receives two ripples output electronic circuit ground terminal and is connected with each other turns into the ripple of double wave dicode two Receiving circuit unit ground terminal.

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit output ends and receives two with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives two wave decoder electronic circuit output ends and receives two with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives two ripples output electronic circuit output end and received with double wave dicode to be known The other input of electronic circuit one is connected.

Double wave dicode receives identification electronic circuit output end and is connected with double wave dicode reception execution circuit input.

A kind of double wave dicode receives design two and receives battery supply, the ripple receiving circuit of double wave dicode one by double wave dicode Unit, the ripple receiving circuit unit of double wave dicode two, double wave dicode constantly controls circuit, double wave dicode to receive identification electronic circuit, Double wave dicode receives execution circuit composition.

By the ripple receiving circuit of double wave dicode one, double wave dicode receives wave decoder electricity to the ripple receiving circuit unit of double wave dicode one Sub-circuit, double wave dicode receives ripple output electronic circuit composition.

By the ripple receiving circuit of double wave dicode two, double wave dicode receives two ripples coding electricity to the ripple receiving circuit unit of double wave dicode two Sub-circuit, double wave dicode receives two ripples output electronic circuit composition.

Double wave dicode constantly controls circuit to receive sequential control circuit by double wave dicode, and double wave dicode receives timing control electricity Road, double wave dicode is received holds line control circuit composition.

Double wave dicode receives sequential control circuit power end, and double wave dicode receives time control circuit power end, and double wave is double Code reception execution control circuit power end is connected to double wave dicode and constantly controls circuit power end.

Double wave dicode receives sequential control circuit ground terminal, and double wave dicode receives time control circuit ground terminal, and double wave is double Code reception execution control circuit ground end is connected to double wave dicode and constantly controls circuit ground end.

Double wave dicode receives sequential control circuit input, and double wave dicode receives time control circuit input and is connected with each other For double wave dicode constantly controls circuit input end, double wave dicode constantly to control circuit input end to receive ripple output with double wave dicode Electronic circuit output end is connected.

Double wave dicode receives meter execution circuit unlatching input when sequential control circuit output end is received with double wave dicode and connects Connect, double wave dicode reception time control circuit output end is held line control circuit closing input and is connected with the reception of double wave dicode, double It is the output end that double wave dicode constantly controls circuit that ripple dicode is received and performs control circuit output end, and double wave dicode constantly controls electricity Road output end receives two ripple coded electronic circuit chip select ends and is connected with double wave dicode.

Double wave dicode receive battery supply positive pole respectively with the ripple receiving circuit unit power end of double wave dicode one, double wave dicode Two ripple receiving circuit unit power ends, double wave dicode constantly controls circuit power end, and double wave dicode receives identification electronic circuit electricity Source, double wave dicode receives execution circuit power end and is connected.

Double wave dicode receive battery supply ground terminal respectively with the ripple receiving circuit unit ground terminal of double wave dicode one, double wave is double Two ripple receiving circuit unit ground terminals of code, double wave dicode constantly controls circuit ground end, and double wave dicode receives identification electronic circuit Ground terminal, double wave dicode receives execution circuit ground terminal and is connected.

The ripple receiving circuit power end of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a ripple Decoding electronic circuitry power end, double wave dicode receives ripple output electronic circuit power end and is connected with each other turns into the ripple of double wave dicode one Receiving circuit unit power end.

The ripple receiving circuit ground terminal of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a ripple Decoding electronic circuitry ground terminal, double wave dicode receives ripple output electronic circuit ground terminal and is connected with each other turns into the ripple of double wave dicode one Receiving circuit unit ground terminal.

The ripple receiving circuit power end of double wave dicode two in the ripple receiving circuit unit of double wave dicode two, double wave dicode receives two ripples Decoding electronic circuitry power end, double wave dicode receives two ripples output electronic circuit power end and is connected with each other turns into the ripple of double wave dicode two Receiving circuit unit power end.

The ripple receiving circuit ground terminal of double wave dicode two in the ripple receiving circuit unit of double wave dicode two, double wave dicode receives two ripples Decoding electronic circuitry ground terminal, double wave dicode receives two ripples output electronic circuit ground terminal and is connected with each other turns into the ripple of double wave dicode two Receiving circuit unit ground terminal.

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit output end and receives one with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives a wave decoder electronic circuit output end and receives one with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives ripple output electronic circuit output end and connect with double wave dicode respectively The identification input of electronic circuit one is received, double wave dicode constantly controls circuit input end to be connected.

Constantly control circuit output end is connected double wave dicode with two ripple coded electronic circuit chip select ends of double wave dicode reception.

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit output ends and receives two with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives two wave decoder electronic circuit output ends and receives two with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives two ripples output electronic circuit output end and received with double wave dicode to be known The other input of electronic circuit one is connected.

Double wave dicode receives identification electronic circuit output end and is connected with double wave dicode reception execution circuit input.

The operation principle of scheme one：

Double wave dicode receive battery supply positive pole respectively with the power end of the ripple receiving circuit unit of double wave dicode one, i.e. double wave dicode One ripple receiving circuit power end, double wave dicode receives a wave decoder electronic circuit power end, and double wave dicode receives ripple output electricity Sub-circuit power end is connected.

The power end of the ripple receiving circuit unit of double wave dicode two, i.e. the ripple receiving circuit power end of double wave dicode two, double wave are double Code receives two ripple coded electronic circuit power ends, and double wave dicode receives two ripples output electronic circuit power end and is connected.

Double wave dicode receives identification electronic circuit power end, and double wave dicode receives execution circuit power end and is connected.

Double wave dicode receive battery supply ground terminal respectively with the ground terminal of the ripple receiving circuit unit of double wave dicode one, i.e., it is double Ripple dicode receives a wave circuit ground terminal, and double wave dicode receives a wave decoder electronic circuit ground terminal, and double wave dicode receives a ripple Output electronic circuit ground terminal is connected.

The ground terminal of the ripple receiving circuit unit of double wave dicode one, i.e. double wave dicode receive two wave circuit ground terminals, and double wave is double Code receives two ripple coded electronic circuit ground ends, and double wave dicode receives two ripples output electronic circuit ground terminal and is connected.

Double wave dicode receives identification electronic circuit ground terminal, and double wave dicode receives execution circuit ground terminal and is connected.

The power end of the ripple receiving circuit unit of double wave dicode one, i.e. the ripple receiving circuit power end of double wave dicode one, double wave are double Code receives a wave decoder electronic circuit power end, and double wave dicode receives ripple output electronic circuit power end；The ripple of double wave dicode two The power end of receiving circuit unit, i.e. the ripple receiving circuit power end of double wave dicode two, double wave dicode receive two ripple coded electronics electricity Road power end, double wave dicode is received after two ripples output electronic circuit power end switches on power and started working.

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit output end and receives one with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives a wave decoder electronic circuit output end and receives one with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives ripple output electronic circuit output end and received with double wave dicode to be known The other input of electronic circuit one is connected.

Because double wave dicode receives a wave circuit output end one yard of decoding electronic circuitry signal input is received with unicast dicode End is connected, and double wave dicode receives a wave circuit and leads in the ripple signal for receiving the transmitting of double wave dicode radiating circuit Cross output end export give double wave dicode receive a wave decoder electronic circuit signal input part.

Double wave dicode receives a wave decoder electronic circuit after the signal that the reception one wave circuit transmission of double wave dicode comes is received Decoding effort is carried out immediately.

Double wave dicode receives a wave decoder electronic circuit output end and receives ripple output electronic circuit input with double wave dicode End is connected.

Double wave dicode receives a wave decoder electronic circuit and enters in the signal for receiving the reception one wave circuit transmission of double wave dicode After row decoding, it is transferred to double wave dicode and receives ripple output electronic circuit input.

Double wave dicode receives ripple output electronic circuit output end and receives the identification input of electronic circuit one with double wave dicode It is connected.

Double wave dicode receives a wave decoder electronic circuit and will receive the signal that the reception one wave circuit transmission of double wave dicode comes After being decoded, it is transferred to double wave dicode and receives ripple output electronic circuit input, receiving a ripple by double wave dicode exports Outwards output passes up to double wave dicode and receives identification electronic circuit after electronic circuit treatment.

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit output ends and is connect with unicast dicode is connected Receive two yards of decoding electronic circuitry signal input parts to be connected, double wave dicode receives two wave circuits and receiving double wave dicode transmitting electricity The two ripple signals that road transmitting comes are exported by output end and receive two wave decoder electronic circuit signal inputs to double wave dicode End.

Double wave dicode receives two wave decoder electronic circuits after the signal that the reception two wave circuits transmission of double wave dicode comes is received Decoding effort is carried out immediately.

Double wave dicode receives two wave decoder electronic circuit output ends and receives the output electronic circuit input of two ripples with double wave dicode End is connected.

Double wave dicode receives two wave decoder electronic circuits and enters in the signal for receiving the reception two wave circuits transmission of double wave dicode After row decoding, it is transferred to double wave dicode and receives two ripples output electronic circuit input.

Double wave dicode receives two ripples output electronic circuit output end and receives the identification input of electronic circuit one with double wave dicode It is connected.

Double wave dicode receives two wave decoder electronic circuits and will receive the signal that the reception two wave circuits transmission of double wave dicode comes After being decoded, it is transferred to double wave dicode and receives two ripples output electronic circuit input, two ripples output electricity is received through double wave dicode Outwards output passes up to double wave dicode and receives identification electronic circuit after sub-circuit treatment.

Double wave dicode receives ripple output electronic circuit and will be connected to respectively with double wave dicode reception two ripples output electronic circuit Double wave dicode receive a wave decoder electronic circuit double wave dicode receive a wave decoder electronic signal, and double wave dicode receive two The double wave dicode of wave decoder electronic circuit receives two wave decoder electronic signals, passes to double wave dicode reception identification electronic circuit and enters Row identification.

Double wave dicode receives identification electronic circuit output end and is connected with double wave dicode reception execution circuit input；Double wave Dicode receives identification electronic circuit and double wave dicode reception execution circuit is passed to after identification determination is errorless, and double wave dicode is received and held Outwards output performs order to row circuit after treatment.

The operation principle of scheme two：

Double wave dicode receive battery supply positive pole respectively with the ripple receiving circuit unit power end of double wave dicode one, i.e. double wave dicode A wave circuit power end is received, double wave dicode receives a wave decoder electronic circuit power end, and double wave dicode receives ripple output electricity Sub-circuit power end.

The ripple receiving circuit unit power end of double wave dicode one, i.e. double wave dicode receive a wave circuit power end, double wave dicode A wave decoder electronic circuit power end is received, double wave dicode receives ripple output electronic circuit power end.

The ripple receiving circuit unit power end of double wave dicode two, i.e. double wave dicode receive two wave circuit power ends, double wave dicode Two wave decoder electronic circuit power ends are received, double wave dicode receives two ripples output electronic circuit power end.

Double wave dicode constantly controls circuit power end, and double wave dicode receives identification electronic circuit power end, and double wave dicode connects Row circuit power end is accepted to be connected.

Double wave dicode receive battery supply ground terminal respectively with the ripple receiving circuit unit ground terminal of double wave dicode one, i.e., it is double Ripple dicode receives a wave circuit ground terminal, and double wave dicode receives a wave decoder electronic circuit ground terminal, and double wave dicode receives a ripple Output electronic circuit ground terminal.

The ripple receiving circuit unit ground terminal of double wave dicode two, i.e. double wave dicode receive two wave circuit ground terminals, double wave dicode Two wave decoder electronic circuit ground terminals are received, double wave dicode receives two ripples output electronic circuit ground terminal.

Double wave dicode constantly controls circuit ground end, and double wave dicode receives identification electronic circuit ground terminal, and double wave dicode connects Row circuit ground end is accepted to be connected.

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit power end, and double wave dicode receives a ripple Decoding electronic circuitry power end, double wave dicode receives ripple output electronic circuit power end.

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit power ends, and double wave dicode receives two ripples Decoding electronic circuitry power end, double wave dicode receives two ripples output electronic circuit power end.

Double wave dicode constantly controls circuit power end, and double wave dicode receives identification electronic circuit power end, and double wave dicode connects Accept line control circuit power end after being powered up, double wave dicode receives two wave decoder electronic circuits and begins preparing for work.

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit output end and receives one with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives a wave decoder electronic circuit output end and receives one with double wave dicode Ripple output electronic circuit input is connected, and double wave dicode receives ripple output electronic circuit output end and received with double wave dicode to be known The other input of electronic circuit one is connected.

Because double wave dicode receives a wave circuit output end one yard of decoding electronic circuitry signal is received with unicast dicode is connected Input is connected, and double wave dicode receives a wave circuit and receiving the ripple signal that the transmitting of double wave dicode radiating circuit comes Exported by output end and receive a wave decoder electronic circuit signal input part to double wave dicode.

Double wave dicode receives a wave decoder electronic circuit after the signal that the reception one wave circuit transmission of double wave dicode comes is received Decoding effort is carried out immediately.

Double wave dicode receives a wave decoder electronic circuit output end and receives ripple output electronic circuit input with double wave dicode End is connected.

Double wave dicode receives a wave decoder electronic circuit and enters in the signal for receiving the reception one wave circuit transmission of double wave dicode After row decoding, it is transferred to double wave dicode and receives ripple output electronic circuit input.

Double wave dicode receives ripple output electronic circuit output end and receives the identification input of electronic circuit one with double wave dicode It is connected.

Double wave dicode receives a wave decoder electronic circuit and will receive the signal that the reception one wave circuit transmission of double wave dicode comes After being decoded, it is transferred to double wave dicode and receives ripple output electronic circuit input, is exported through receiving a ripple to double wave dicode Electronic circuit is outwards exported after crossing treatment, double wave dicode reception identification electronic circuit is delivered to respectively and is constantly controlled with double wave dicode Circuit.

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit output ends and receives two with double wave dicode Wave decoder electronic circuit input is connected, and double wave dicode receives two wave circuits and receiving the transmitting of double wave dicode radiating circuit Two ripple signals, be immediately passed to double wave dicode receive two ripple coded electronic circuit input ends, but double wave dicode receive two ripples compile Code electronic circuit can not now work.

Because double wave dicode receives ripple output, electronic circuit output end constantly controls circuit input end phase with double wave dicode Connection.

Constantly control circuit output end is connected double wave dicode with two ripple coded electronic circuit chip select ends of double wave dicode reception.

When double wave dicode receives ripple output electronic circuit output end no signal and exports, double wave dicode receives two wave decoders The chip select end of electronic circuit can not temporarily work in locking states.

When double wave dicode reception one ripple output electronic circuit output end has signal output, when will output signal to double wave dicode When control circuit input end, double wave dicode constantly controls circuit that output signal is received into two ripple coded electronic circuits by double wave dicode Chip select end locking states are released starts working.

Double wave dicode receives two wave decoder electronic circuits and is started working after locking states are released, and double wave dicode receives two ripples Decoding electronic circuitry is decoded immediately after the signal that the reception two wave circuits transmission of double wave dicode comes is received.

Double wave dicode receives two wave decoder electronic circuit output ends and receives the output electronic circuit input of two ripples with double wave dicode End is connected.

Double wave dicode receives two wave decoder electronic circuits and enters in the signal for receiving the reception two wave circuits transmission of double wave dicode After row decoding, it is transferred to double wave dicode and receives two ripples output electronic circuit input.

Double wave dicode receives two ripples output electronic circuit output end and receives the identification input of electronic circuit one with double wave dicode It is connected.

Double wave dicode receives two wave decoder electronic circuits and will receive the signal that the reception two wave circuits transmission of double wave dicode comes After being decoded, it is transferred to double wave dicode and receives two ripples output electronic circuit input, is exported through receiving two ripples to double wave dicode Electronic circuit is outwards exported after crossing treatment, is passed up to double wave dicode and is received identification electronic circuit.

Double wave dicode receives ripple output electronic circuit and will be connected to respectively with double wave dicode reception two ripples output electronic circuit Double wave dicode receive a wave decoder electronic circuit double wave dicode receive a wave decoder electronic signal, and double wave dicode receive two The double wave dicode of wave decoder electronic circuit receives two wave decoder electronic signals, passes to double wave dicode reception identification electronic circuit and enters Row identification.

Double wave dicode receives identification electronic circuit output end and is connected with double wave dicode reception execution circuit input；Double wave Dicode receives identification electronic circuit and double wave dicode reception execution circuit is passed to after identification determination is errorless, and double wave dicode is received and held Outwards output performs order to row circuit after treatment.

Double wave dicode receives ripple output electronic circuit output end and constantly controls circuit input end to be connected with double wave dicode, Double wave dicode receives ripple output electronic circuit output end will constantly control circuit defeated in outside output signal to double wave dicode Enter and hold output signal, double wave dicode constantly controls circuit input end receiving the reception one ripple output electronic circuit output of double wave dicode After holding the signal of output, double wave dicode constantly controls the double wave dicode of circuit to receive sequential control circuit and receives meter with double wave dicode When control circuit will immediately begin to start timework.

After double wave dicode constantly controls the double wave dicode of circuit to receive sequential control circuit work, double wave dicode receives sequential Control circuit is received to double wave dicode immediately holds line control circuit unlatching input output open signal, double wave dicode is received and is held Line control circuit is opened, and receives two wave decoder electronic circuit chip select ends transmission signal to double wave dicode, by its locking states solution Except start-up operation.

Double wave dicode receives time control circuit upon receipt of the signals, and double wave dicode receives time control circuit and starts Starting timework double wave dicode reception time control circuit after the time for reaching setting will perform control to the reception of double wave dicode Circuit shutdown side input output shutdown signal processed is turned off, and constantly control circuit output circuit is defeated by no signal for double wave dicode Go out, the chip select end for making double wave dicode receive two wave decoder electronic circuits is again at locking states can not temporarily work；Work as double wave Dicode receives two yards of decoding effort times of decoding electronic circuitry, because the time that certain reason exceedes regulation can not complete correlation Decoding effort.

Which enhance launch requirements, and security.

The present invention has following outstanding advantages after implementing：

1st, a kind of double wave dicode reception scheme coordinates with a kind of double wave dicode launch scenario, due to launching and receiving double using double wave Code；Its carrier wave any two can be flexibly selected during radio wave and infrared ray involve ultrasonic wave shortly, and the coding of two is again each Differ, so to using decoder, grabbing a yard device and catching strong with radio scanner criminal offence resistivity.2nd, a kind of double wave is double Code reception scheme can with shut whole car doors after central controlled lock be automatically switched off, warning system automatic throw-in device is used cooperatively, it is convenient, Modern sense is strong.Automotive safety coefficient is effectively raised, the crime row using interference unit, decoder etc crime one's share of expenses for a joint undertaking is prevented To be that car owner reduces unnecessary economic loss.

3rd, double wave dicode constantly controls circuit, double wave dicode constantly to control circuit in a kind of double wave dicode reception scheme two After the signal for receiving the reception one ripple output electronic circuit output end output of double wave dicode, double wave dicode constantly controls electricity to input Road will release double wave dicode and receive two yards of decoding electronic circuitry closed modes, while double wave dicode receives time control circuit will open Begin to start timework, after the time for reaching setting, will constantly control the double wave dicode of circuit to receive sequential to double wave dicode Control circuit shutdown side input, output shutdown signal is turned off, and double wave dicode is received the choosing of two wave decoder electronic circuits Bit end is again at locking states can not temporarily work；When the decoding effort of double wave dicode two yards of decoding electronic circuitries of reception Between, because the time that certain reason exceedes regulation can not complete relative decoding work, which enhance launch requirements, and safety Property.

4th, a kind of double wave dicode reception scheme is simple, easily produce installation, stable and reliable for performance.

Brief description of the drawings

Fig. 1 is that a kind of double wave dicode receives the frame principle figure of design one.

In figure：Square frame 1, expression double wave dicode receive battery supply；Square frame 2, the ripple receiving circuit list of expression double wave dicode one Unit；Square frame 3, the ripple receiving circuit of expression double wave dicode one；Square frame 4, expression double wave dicode receive a wave decoder electronic circuit；Square frame 5th, represent that double wave dicode receives ripple output electronic circuit；Square frame 6, the ripple receiving circuit unit of expression double wave dicode two；Square frame 7, Represent the ripple receiving circuit of double wave dicode two；Square frame 8, expression double wave dicode receive two ripple coded electronic circuits, and square frame 9, expression are double Ripple dicode receives two ripples output electronic circuit；Square frame 10, expression double wave dicode receive identification electronic circuit；Square frame 11, expression are double Ripple dicode receives execution circuit.

Fig. 2 is a kind of frame principle figure of double wave dicode reception scheme two.

In figure：Square frame 1, expression double wave dicode receive battery supply；Square frame 2, the ripple receiving circuit list of expression double wave dicode one Unit；Square frame 3, the ripple receiving circuit of expression double wave dicode one；Square frame 4, expression double wave dicode receive a wave decoder electronic circuit；Square frame 5th, represent that double wave dicode receives ripple output electronic circuit；Square frame 6, the ripple receiving circuit unit of expression double wave dicode two；Square frame 7, Represent the ripple receiving circuit of double wave dicode two；Square frame 8, expression double wave dicode receive two ripple coded electronic circuits, and square frame 9, expression are double Ripple dicode receives two ripples output electronic circuit；Square frame 10, expression double wave dicode receive identification electronic circuit；Square frame 11, expression are double Ripple dicode receives execution circuit；Square frame 12, expression double wave dicode constantly control circuit；When square frame 13, expression double wave dicode are received Sequence control circuit；Square frame 14, expression double wave dicode receive time control circuit；Square frame 15, expression double wave dicode are received and perform control Circuit processed.

Specific embodiment

Fig. 1, Fig. 2, each a kind of mode for respectively representing a kind of specific implementation of double wave dicode reception scheme, its specific embodiment It is essentially identical.It is double that a kind of double wave dicode reception scheme two increased double wave on the basis of a kind of double wave dicode reception scheme one Code constantly controls circuit, it is further provided its security.

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.

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, 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）, to the ripple receiving circuit of double wave dicode one, the inspection of the ripple receiving circuit of double wave dicode two, with avometer positive pole or Oscillograph positive signal input tests the ripple receiving circuit of double wave dicode one respectively, and the ripple receiving circuit of double wave dicode two respectively works Point, the ripple receiving circuit of double wave dicode one, the ripple receiving circuit of double wave dicode two will start working after switching on power, double with a kind of double wave Code transmitting design device is launched, and double wave dicode is tested respectively with avometer positive pole or oscillograph positive signal input One ripple receiving circuit, the output end of the ripple receiving circuit of double wave dicode two, by the ripple receiving circuit of detection double wave dicode one, double wave dicode The electric signal that two ripple receiving circuits are received and exported；If can't detect, should check whether that element insertion occurs with welding wrong By mistake.

（5）, a wave decoder electronic circuit and double wave dicode two wave decoder electronic circuits of reception received to double wave dicode carry out Check.

Double wave dicode is tested respectively with avometer positive pole or oscillograph positive signal input receives a wave decoder electronics The power end that circuit receives two wave decoder electronic circuits with double wave dicode is connected after having voltage and started working, and is believed with oscillograph positive pole Number input receives a wave decoder electronic circuit and double wave dicode and receives the input of two wave decoder electronic circuits and surveys in double wave dicode When having tried signal input, receive a wave decoder electronic circuit in double wave dicode and receive two wave decoder electronic circuits with double wave dicode Output end just test the encoded signal of its normal output；If can't detect, should check whether welding make a mistake or It is component wear.

（6）, receive to double wave dicode a ripple output electronic circuit and double wave dicode and receive two ripples and export electronic circuit and carry out Check.

Double wave dicode is tested respectively with avometer positive pole or oscillograph positive signal input receives ripple output electronics The power end that circuit receives two ripples output electronic circuit with double wave dicode is connected after having voltage and started working, and is believed with oscillograph positive pole Number input receives a ripple output electronic circuit and double wave dicode and receives the input of two ripples output electronic circuit and surveys in double wave dicode When having tried signal input, receive ripple output electronic circuit in double wave dicode and receive two ripples output electronic circuit with double wave dicode Output end just test the encoded signal of its normal output；If can't detect, should check whether welding make a mistake or It is that component wear output end one is surely tested to identical signal；If can't detect, should check whether welding make a mistake or It is component wear.

（7）, to double wave dicode receive identification electronic circuit inspection.

Double wave dicode is tested respectively with avometer positive pole or oscillograph positive signal input receives identification electronic circuit Power end connect and have operating voltage after, test double wave respectively with avometer positive pole or oscillograph positive signal input double Code receives identification electronic circuit each input, when double wave dicode receives identification electronic circuit each input and is high potential, The output end that double wave dicode receives identification electronic circuit has voltage output, and double wave dicode receives identification electronic circuit an input Hold during for low potential, double wave dicode receives identification electronic circuit output end and exported without pressure.

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

（8）, receive to double wave dicode the inspection of execution circuit, surveyed with avometer positive pole or oscillograph positive signal input The power end tried to double wave dicode reception execution circuit is connected after having operating voltage, is input into double wave with oscillograph positive signal When the input that dicode receives execution circuit has input signal, the output end for receiving execution circuit in double wave dicode will be tested to just The execution signal that often it is exported；If can't detect, should check whether that welding makes a mistake or component wear.

（9）, to double wave dicode, when control circuit inspection.

Double wave dicode constantly controls circuit to receive sequential control circuit by double wave dicode, and double wave dicode receives timing control electricity Road, meter execution circuit composition when double wave dicode is received.

Double wave dicode is tested respectively with avometer positive pole or oscillograph positive signal input receives sequential control circuit, Double wave dicode receives time control circuit, after the power end of meter execution circuit is connected and has operating voltage when double wave dicode is received, Double wave dicode is tested respectively with avometer positive pole or oscillograph positive signal input receives sequential control circuit, double wave dicode Receive time control circuit input.

When double wave dicode receives sequential control circuit with double wave dicode reception time control circuit input no signal, double wave Dicode receives sequential control circuit and is not worked with double wave dicode reception time control circuit, and double wave dicode receives sequential control circuit Receiving time control circuit input with double wave dicode has signal to start working.

After the input of double wave dicode reception sequential control circuit has signal, double wave dicode receives the defeated of sequential control circuit Go out end and execution circuit unlatching input output signal is counted when having high potential to be received to double wave dicode, counted when double wave dicode is received.,

After the input of double wave dicode reception time control circuit has control source, double wave dicode receives time control circuit immediately Start timework, double wave dicode receives time control circuit after some period of time, and its output end will connect to double wave dicode Time receiving meter execution circuit closes input output shutdown signal, and meter execution circuit output end will be defeated without pressing when double wave dicode is received Go out.

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

Claims (6)

1. a kind of double wave dicode receives design, it is characterized in that：Design one, a kind of double wave are received by a kind of double wave dicode Dicode receives design two and constitutes；

A kind of double wave dicode receives design one and receives battery supply, the ripple receiving circuit list of double wave dicode one by double wave dicode Unit, the ripple receiving circuit unit of double wave dicode two, double wave dicode receives identification electronic circuit, and double wave dicode receives execution circuit group Into；

By the ripple receiving circuit of double wave dicode one, double wave dicode receives wave decoder electronics electricity to the ripple receiving circuit unit of double wave dicode one Road, double wave dicode receives ripple output electronic circuit composition；

By the ripple receiving circuit of double wave dicode two, unicast dicode receives two ripple coded electronics electricity to the ripple receiving circuit unit of double wave dicode two Road, unicast dicode receives two ripples output electronic circuit composition；

Double wave dicode receive battery supply positive pole respectively with the ripple receiving circuit unit power end of double wave dicode one, the ripple of double wave dicode two Receiving circuit unit power end, double wave dicode receives identification electronic circuit power end, and double wave dicode receives execution circuit power end It is connected；

Double wave dicode receive battery supply ground terminal respectively with the ripple receiving circuit unit ground terminal of double wave dicode one, double wave dicode two Ripple receiving circuit unit ground terminal, double wave dicode receives identification electronic circuit ground terminal, and double wave dicode receives execution circuit ground wire End is connected；

The ripple receiving circuit power end of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a wave decoder Electronic circuit power end, double wave dicode receives ripple output electronic circuit power end and is connected with each other as the reception of the ripple of double wave dicode one Circuit unit power end；

The ripple receiving circuit ground terminal of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a wave decoder Electronic circuit ground terminal, double wave dicode receives ripple output electronic circuit ground terminal and is connected with each other as the reception of the ripple of double wave dicode one Circuit unit ground terminal；

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit output end and receives a ripple solution with double wave dicode Code electronic circuit input is connected, and it is defeated with double wave dicode one ripple of reception that double wave dicode receives a wave decoder electronic circuit output end Go out electronic circuit input to be connected, double wave dicode receives ripple output electronic circuit output end and receives identification electricity with double wave dicode The input of sub-circuit one is connected；

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit output ends and receives two ripple solutions with double wave dicode Code electronic circuit input is connected, and it is defeated with double wave dicode two ripples of reception that double wave dicode receives two wave decoder electronic circuit output ends Go out electronic circuit input to be connected, double wave dicode receives two ripples output electronic circuit output end and receives identification electricity with double wave dicode The input of sub-circuit one is connected；

Double wave dicode receives identification electronic circuit output end and is connected with double wave dicode reception execution circuit input；

A kind of double wave dicode receives design two and receives battery supply, the ripple receiving circuit list of double wave dicode one by double wave dicode Unit, the ripple receiving circuit unit of double wave dicode two, double wave dicode constantly controls circuit, and double wave dicode receives identification electronic circuit, double Ripple dicode receives execution circuit composition；

By the ripple receiving circuit of double wave dicode one, double wave dicode receives wave decoder electronics electricity to the ripple receiving circuit unit of double wave dicode one Road, double wave dicode receives ripple output electronic circuit composition；

By the ripple receiving circuit of double wave dicode two, unicast dicode receives two ripple coded electronics electricity to the ripple receiving circuit unit of double wave dicode two Road, unicast dicode receives two ripples output electronic circuit composition；

Double wave dicode constantly controls circuit to receive sequential control circuit by double wave dicode, and double wave dicode receives time control circuit, Meter execution circuit composition when double wave dicode is received；

Double wave dicode receives sequential control circuit power end, and double wave dicode receives time control circuit power end, and double wave dicode connects Time receiving meter execution circuit power end is connected to double wave dicode and constantly controls circuit power end；

Double wave dicode receives sequential control circuit ground terminal, and double wave dicode receives time control circuit ground terminal, and double wave dicode connects Time receiving meter execution circuit ground terminal is connected to double wave dicode and constantly controls circuit ground end；

Double wave dicode receives sequential control circuit input, and double wave dicode reception time control circuit input is connected to double Ripple dicode constantly controls circuit input end, double wave dicode constantly to control circuit input end to receive ripple output electronics with double wave dicode Circuit output end is connected；

Double wave dicode receives meter execution circuit unlatching input when sequential control circuit output end is received with ripple dicode and is connected, double wave Dicode receives meter execution circuit closing input when time control circuit output end is received with ripple dicode and is connected, when ripple dicode is received Meter execution circuit output end is the output end that double wave dicode constantly controls circuit, double wave dicode constantly control circuit output end with it is double Ripple dicode receives two ripple coded electronic circuit chip select ends and is connected；

Double wave dicode receive battery supply positive pole respectively with the ripple receiving circuit unit power end of double wave dicode one, the ripple of double wave dicode two Receiving circuit unit power end, double wave dicode constantly controls circuit power end, and double wave dicode receives identification electronic circuit power end, Double wave dicode receives execution circuit power end and is connected；

Double wave dicode receive battery supply ground terminal respectively with the ripple receiving circuit unit ground terminal of double wave dicode one, double wave dicode two Ripple receiving circuit unit ground terminal, double wave dicode constantly controls circuit ground end, and double wave dicode receives identification electronic circuit ground wire End, double wave dicode receives execution circuit ground terminal and is connected；

The ripple receiving circuit power end of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a wave decoder Electronic circuit power end, double wave dicode receives ripple output electronic circuit power end and is connected with each other as the reception of the ripple of double wave dicode one Circuit unit power end；

The ripple receiving circuit ground terminal of double wave dicode one in the ripple receiving circuit unit of double wave dicode one, double wave dicode receives a wave decoder Electronic circuit ground terminal, double wave dicode receives ripple output electronic circuit ground terminal and is connected with each other as the reception of the ripple of double wave dicode one Circuit unit ground terminal；

The ripple receiving circuit power end of double wave dicode two in the ripple receiving circuit unit of double wave dicode two, double wave dicode receives two wave decoders Electronic circuit power end, double wave dicode receives two ripples output electronic circuit power end and is connected with each other as the reception of the ripple of double wave dicode two Circuit unit power end；

The ripple receiving circuit ground terminal of double wave dicode two in the ripple receiving circuit unit of double wave dicode two, double wave dicode receives two wave decoders Electronic circuit ground terminal, double wave dicode receives two ripples output electronic circuit ground terminal and is connected with each other as the reception of the ripple of double wave dicode two Circuit unit ground terminal；

The double wave dicode of the ripple receiving circuit unit of double wave dicode one receives a wave circuit output end and receives a ripple solution with double wave dicode Code electronic circuit input is connected, and it is defeated with double wave dicode one ripple of reception that double wave dicode receives a wave decoder electronic circuit output end Go out electronic circuit input to be connected, double wave dicode receives ripple output electronic circuit output end and received with double wave dicode respectively to be known The other input of electronic circuit one, double wave dicode constantly controls circuit input end to be connected；

Constantly control circuit output end is connected double wave dicode with two ripple coded electronic circuit chip select ends of double wave dicode reception；

The double wave dicode of the ripple receiving circuit unit of double wave dicode two receives two wave circuit output ends and receives two ripple solutions with double wave dicode Code electronic circuit input is connected, and it is defeated with double wave dicode two ripples of reception that double wave dicode receives two wave decoder electronic circuit output ends Go out electronic circuit input to be connected, double wave dicode receives two ripples output electronic circuit output end and receives identification electricity with double wave dicode The input of sub-circuit one is connected；

Double wave dicode receives identification electronic circuit output end and is connected with double wave dicode reception execution circuit input.

2. a kind of double wave dicode according to claim 1 receives design, it is characterized in that：A kind of double wave dicode recipient The double wave of case is combined for radio wave with infrared wave.

3. a kind of double wave dicode according to claim 1 receives design, it is characterized in that：A kind of double wave dicode recipient The double wave of case is combined for infrared wave with ultrasonic wave.

4. a kind of double wave dicode according to claim 1 receives design, it is characterized in that：A kind of double wave dicode recipient The double wave of case is combined for radio wave with ultrasonic wave.

5. a kind of double wave dicode according to claim 1 receives design, it is characterized in that：A kind of double wave dicode recipient The dicode of case is combined for regular coding with rolling coding.

6. a kind of double wave dicode according to claim 1 receives design, it is characterized in that：A kind of double wave dicode recipient The dicode of case or for rolling coding is combined with rolling coding.