CN106926816A - A kind of multiple ejected wave odd encoder remote control scheme of automobile - Google Patents

Abstract

A kind of multiple ejected wave odd encoder remote control scheme of automobile belongs to electronic technology field, by multiple ejected wave odd encoder battery supply, multiple ejected wave odd encoder button switch, the multiple total electronic circuit switch element of ejected wave odd encoder；With the multiple coding circuit of one ripple of ejected wave odd encoder two, the multiple coding circuit of two ripple of ejected wave odd encoder two, the multiple coding circuit of three ripple of ejected wave odd encoder two；I.e. multiple ejected wave odd encoder A ripple B coding circuits, by multiple ejected wave odd encoder A ripple electronic switches, multiple ejected wave odd encoder A ripples oscillating circuit switch, multiple B yards of electronic switch of ejected wave odd encoder A ripples, multiple ejected wave odd encoder A ripples B coded electronic circuits, multiple ejected wave odd encoder A ripples B coded electronic circuits, multiple B yards of coding output circuit of ejected wave odd encoder A ripples；Multiple ejected wave odd encoder A ripples dicode encodes OR gate output circuit, and multiple ejected wave odd encoder A ripple dicode launching electronics circuit is constituted, and its transmitted wave is multi-emitting waveshape；It is encoded to odd encoder flexible combination, easily production, good operation.

Description

A kind of multiple ejected wave odd encoder remote control scheme of automobile

Technical field

Belong to electronic technology field.

Background technology

Automobile is increasingly popularized as the essential instrument of work and family, and general car is all to use remote control coding lift-off technology, used as the instrument laid the key under the door and unlock；Remote control coding lift-off technology is also widely used in the life of the masses, such as remote control switch antitheft door.

Therefore remote control coding lift-off technology product anti-copying, anti-tampering, raising security classification are the important technology indexs for representing that remote control coding lift-off technology is good and bad.From in terms of present technical merit, for motor central lock input remote control, there is work not safe enough, the usual one kind " grabbing a yard device " of some lawless persons is also the special electrical devices of " reproducer ", when owner is when remote controlled locking is used, this electronic instrument can capture the radiofrequency signal and code signal of remote control, after treating that owner leaves, lawless person will be trusted with the instrument and audaciously copy code signal, unlocking theft is carried out, 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 anti-copying, how could realize improving use level of confidentiality degree, reduce use cost, be adapted to the product of minuscule-type-enterprise's production, also become the key subjects in market.

Prevent lawless person from will be trusted with the instrument and audaciously copy code signal, carry out unlocking theft, 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, a kind of many ripple multi-emitting schemes are developed, the various change selections of increase of its transmitting carrier wave and coding, improve secret and safe.

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

The content of the invention

A kind of multiple ejected wave odd encoder remote control scheme of automobile and a kind of automobile intelligent receiver of remote-control sytem coordinate the tool anti-ability of cracking very high, and one is that its transmitted wave is the first transmitted wave and the combination of the second transmitted wave and the 3rd transmitted wave, two are when it is encoded or be a coding and a coding and a coding and No. 4 codings and a coding and No. two combinations for encoding；Or be a coding and a coding and No. two codings and a coding and a coding and No. two combinations of coding；Or be No. two codings and a coding and No. two codings and a coding and a coding and No. two combinations of coding；Or for No. two coding with No. one coding with No. two coding with No. two coding with No. one coding with No. two coding etc. various changes combination, optimum efficiency can be played.So as to abundant transmitting coding techniques.There is the change of a variety of forms due to a kind of this multiple ejected wave odd encoder remote control scheme of automobile, and each version all has great importance, so this enterprise has made system innovation, with easily production, operate has very big competitiveness well in market competition.

1st, a kind of multiple ejected wave odd encoder remote control scheme of automobile is by multiple ejected wave odd encoder battery supply, multiple ejected wave odd encoder button switch, the multiple total electronic circuit switch element of ejected wave odd encoder；The multiple coding circuit of one ripple of ejected wave odd encoder two, the multiple coding circuit of two ripple of ejected wave odd encoder two, the multiple coding circuit of three ripple of ejected wave odd encoder two composition.

The multiple coding circuit of one ripple of ejected wave odd encoder two is by the ripple electronic switch of multiple ejected wave odd encoder one, the ripple oscillating circuit of multiple ejected wave odd encoder one switch.

Multiple ejected wave odd encoder one ripple, one yard of electronic switch, the multiple coded electronic circuit of one ripple of ejected wave odd encoder one, multiple ejected wave odd encoder one ripple, one yard of coding output circuit.

Multiple ejected wave odd encoder one ripple, two yards of electronic switches, the multiple coded electronic circuit of one ripple of ejected wave odd encoder two, multiple ejected wave odd encoder one ripple, two yards of coding output circuits.

The ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one composition.

The multiple coding circuit of two ripple of ejected wave odd encoder two is by the ripple electronic switch of multiple ejected wave odd encoder two, the ripple oscillating circuit of multiple ejected wave odd encoder two switch.

Multiple ejected wave odd encoder two ripples, five yards of electronic switches, the multiple coded electronic circuit of two ripple of ejected wave odd encoder five, multiple ejected wave odd encoder two ripples, five yards of coding output circuits.

Multiple ejected wave odd encoder two ripples, six yards of electronic switches, the multiple coded electronic circuit of two ripple of ejected wave odd encoder six, multiple ejected wave odd encoder two ripples, six yards of coding output circuits.

The ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two composition.

The multiple coding circuit of three ripple of ejected wave odd encoder two is by the ripple electronic switch of multiple ejected wave odd encoder three, the ripple oscillating circuit of multiple ejected wave odd encoder three switch.

The ripple trigram electronic switch of multiple ejected wave odd encoder three, the multiple coded electronic circuit of three ripple of ejected wave odd encoder three, the three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three.

Multiple ejected wave odd encoder three ripples, four yards of electronic switches, the multiple coded electronic circuit of three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit of multiple ejected wave odd encoder three.

The ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three composition.

Because the multiple coding circuit of one ripple of ejected wave odd encoder two, the multiple coding circuit of two ripple of ejected wave odd encoder two, the multiple coding circuit of three ripple of ejected wave odd encoder two unitedly calls multiple ejected wave odd encoder A ripple B coding circuits again.

The ripple electronic switch of multiple ejected wave odd encoder one, the ripple electronic switch of multiple ejected wave odd encoder two, the ripple electronic switch of multiple ejected wave odd encoder three unitedly calls multiple ejected wave odd encoder A ripple electronic switches again.

The ripple oscillating circuit of multiple ejected wave odd encoder one is switched, and the ripple oscillating circuit of multiple ejected wave odd encoder two switch, the ripple oscillating circuit of multiple ejected wave odd encoder three switch unitedly calls multiple ejected wave odd encoder A ripples oscillating circuit to switch again.

Multiple ejected wave odd encoder one ripple, one yard of electronic switch, multiple ejected wave odd encoder one ripple, two yards of electronic switches, multiple ejected wave odd encoder two ripples, five yards of electronic switches, multiple ejected wave odd encoder two ripples, six yards of electronic switches, the ripple trigram electronic switch of multiple ejected wave odd encoder three, multiple ejected wave odd encoder three ripples, four yards of electronic switches, unitedly call multiple B yards of electronic switch of ejected wave odd encoder A ripples again.

The multiple coded electronic circuit of one ripple of ejected wave odd encoder one, the multiple coded electronic circuit of one ripple of ejected wave odd encoder two, the multiple coded electronic circuit of two ripple of ejected wave odd encoder five, the multiple coded electronic circuit of two ripple of ejected wave odd encoder six, the multiple coded electronic circuit of three ripple of ejected wave odd encoder three, the multiple coded electronic circuit of three ripple of ejected wave odd encoder four, unitedly calls multiple ejected wave odd encoder A ripples B coded electronic circuits again.

Multiple ejected wave odd encoder one ripple, one yard of coding output circuit；Multiple ejected wave odd encoder one ripple, two yards of coding output circuits；Multiple ejected wave odd encoder two ripples, five yards of coding output circuits；Multiple ejected wave odd encoder two ripples, six yards of coding output circuits；The three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three；The ripple four code encoding output circuit of multiple ejected wave odd encoder three；Multiple B yards of coding output circuit of ejected wave odd encoder A ripples is unitedly called again.

The ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit, and the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit unitedly calls multiple ejected wave odd encoder A ripples dicode coding OR gate output circuit again.

The ripple dicode launching electronics circuit of multiple ejected wave odd encoder one, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three unitedly calls multiple ejected wave odd encoder A ripples dicode launching electronics circuit again.

So the multiple coding circuit of one ripple of ejected wave odd encoder two, the multiple coding circuit of two ripple of ejected wave odd encoder two, the multiple coding circuit of three ripple of ejected wave odd encoder two；I.e. multiple ejected wave odd encoder A ripple B coding circuits, by multiple ejected wave odd encoder A ripple electronic switches, multiple ejected wave odd encoder A ripples oscillating circuit switch, multiple B yards of electronic switch of ejected wave odd encoder A ripples, multiple ejected wave odd encoder A ripples B coded electronic circuits, multiple ejected wave odd encoder A ripples B coded electronic circuits, multiple B yards of coding output circuit of ejected wave odd encoder A ripples；Multiple ejected wave odd encoder A ripples dicode encodes OR gate output circuit, multiple ejected wave odd encoder A ripple dicode launching electronics circuit composition.

The multiple total electronic circuit switch element of ejected wave odd encoder is by the total electronic impulse circuit of multiple ejected wave odd encoder, the multiple total decimal counting circuit of ejected wave odd encoder, the multiple total clear circuit composition of ejected wave odd encoder.

The multiple total electronic impulse circuit pulse output end of ejected wave odd encoder is connected with the total decimal counting circuit counting input end of multiple ejected wave odd encoder,The Q1 that the total decimal counting circuit of three six yards of ripples is counted,Q2,Q3,Three pulse output ends represent the total electronic circuit switch element 1 of multiple ejected wave odd encoder respectively,2,3 output ends of pulse,The multiple total electronic circuit switch element 1 of ejected wave odd encoder,2,3 output end Q1 of pulse,Q2,Q3,Respectively with the ripple electronic switch controling end of multiple ejected wave odd encoder one,The ripple electronic switch controling end of multiple ejected wave odd encoder two,The ripple electronic switch controling end of multiple ejected wave odd encoder three is connected,The pulse output end Q3 that the multiple total decimal counting circuit of ejected wave odd encoder is counted also is connected with the total clear circuit signal input part of multiple ejected wave odd encoder,The multiple total clear circuit signal output part of ejected wave odd encoder respectively with the total electronic impulse circuit reset signal input of multiple ejected wave odd encoder,The multiple total decimal counting circuit reset signal input of ejected wave odd encoder is connected.

Multiple ejected wave odd encoder button switch one end connects multiple ejected wave odd encoder battery supply positive pole, the multiple ejected wave odd encoder button switch other end and the total electronic circuit switch element power end of multiple ejected wave odd encoder, the ripple electronic switch power end of multiple ejected wave odd encoder one, the ripple electronic switch power end of multiple ejected wave odd encoder two, the connection of the ripple electronic switch power end of multiple ejected wave odd encoder three.

The multiple total electronic circuit switch element ground wire of ejected wave odd encoder, the ripple electronic switch ground wire of multiple ejected wave odd encoder one, the ripple electronic switch ground wire of multiple ejected wave odd encoder two, the ripple electronic switch ground wire of multiple ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire.

Three pulse output end Q1 of the multiple total electronic circuit switch element of ejected wave odd encoder, Q2, Q3, respectively with the ripple electronic switch controling end of multiple ejected wave odd encoder one, the ripple electronic switch controling end of multiple ejected wave odd encoder two, the ripple electronic switch controling end of multiple ejected wave odd encoder three is connected.

The ripple electronic switch output end of multiple ejected wave odd encoder one respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of electronic switch power end, one ripple of multiple ejected wave odd encoder, two yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder one is connected.

The ripple oscillating circuit of multiple ejected wave odd encoder one switchs ground terminal, multiple ejected wave odd encoder one ripple, one yard of electronic switch ground terminal, multiple ejected wave odd encoder one ripple, two yards of electronic switch ground terminals, the ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit ground terminal, and the ripple dicode launching electronics circuit ground end of multiple ejected wave odd encoder one is connected with multiple ejected wave odd encoder battery supply ground wire.

The ripple oscillating circuit of multiple ejected wave odd encoder one switch two output ends respectively with multiple ejected wave odd encoder one ripple, one yard of electronic switch controling end, multiple ejected wave odd encoder one ripple, two yards of electronic switch controling ends are connected.

One ripple of multiple ejected wave odd encoder, one yard of electronic switch output end respectively with the coded electronic circuit power end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit power end is connected.

The coded electronic circuit ground end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit ground terminal is connected with multiple ejected wave odd encoder battery supply ground wire respectively.

One yard of coding output circuit input of the multiple coded electronic circuit output end of one ripple of ejected wave odd encoder one and one ripple of multiple ejected wave odd encoder is connected, and one ripple of multiple ejected wave odd encoder, one yard of coding output circuit output end is connected with the input of the ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit one.

One ripple of multiple ejected wave odd encoder, two yards of electronic switch output ends respectively with the coded electronic circuit power end of multiple one ripple of ejected wave odd encoder two, the connection of one ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends.

The coded electronic circuit ground end of multiple one ripple of ejected wave odd encoder two, one ripple of multiple ejected wave odd encoder, two yards of coding output circuit ground terminals are connected with multiple ejected wave odd encoder battery supply ground wire respectively.

Two yards of coding output circuit inputs of the multiple coded electronic circuit output end of one ripple of ejected wave odd encoder two and one ripple of multiple ejected wave odd encoder are connected, and one ripple of multiple ejected wave odd encoder, two yards of coding output circuit output ends are connected with the input of the ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit one；The ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder one.

The ripple electronic switch output end of multiple ejected wave odd encoder two respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder two, two ripple of multiple ejected wave odd encoder, five yards of electronic switch power ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder two is connected.

The ripple oscillating circuit of multiple ejected wave odd encoder two switchs ground terminal, multiple ejected wave odd encoder two ripples, five yards of electronic switch ground terminals, multiple ejected wave odd encoder two ripples, six yards of electronic switch ground terminals, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit ground terminal, and the ripple dicode launching electronics circuit ground end of multiple ejected wave odd encoder two is connected with multiple ejected wave odd encoder battery supply ground wire.

The ripple oscillating circuit of multiple ejected wave odd encoder two switch two output ends respectively with multiple ejected wave odd encoder two ripples, five yards of electronic switch controling ends, multiple ejected wave odd encoder two ripples, six yards of electronic switch controling ends are connected.

Two ripple of multiple ejected wave odd encoder, five yards of electronic switch output ends respectively with the coded electronic circuit power end of multiple two ripple of ejected wave odd encoder five, multiple two ripple of ejected wave odd encoder five coding output circuit power end is connected.

The coded electronic circuit ground end of multiple two ripple of ejected wave odd encoder five, the multiple coding of two ripple of ejected wave odd encoder five output circuit ground terminal is connected with multiple ejected wave odd encoder battery supply ground wire respectively.

The multiple coded electronic circuit output end of two ripple of ejected wave odd encoder five is connected with multiple two ripple of ejected wave odd encoder five coding output circuit input, and the multiple coding output circuit output end of two ripple of ejected wave odd encoder five is connected with the input of the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit one.

Two ripple of multiple ejected wave odd encoder, six yards of electronic switch output ends respectively with the coded electronic circuit power end of multiple two ripple of ejected wave odd encoder six, the connection of two ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends.

The coded electronic circuit ground end of multiple two ripple of ejected wave odd encoder six, the multiple coding of two ripple of ejected wave odd encoder six output circuit ground terminal is connected with multiple ejected wave odd encoder battery supply ground wire respectively.

The multiple coded electronic circuit output end of two ripple of ejected wave odd encoder six is connected with multiple two ripple of ejected wave odd encoder six coding output circuit input, and the multiple coding output circuit output end of two ripple of ejected wave odd encoder six is connected with the input of the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit one；The ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder two.

The ripple electronic switch output end of multiple ejected wave odd encoder three respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder three, the ripple trigram electronic switch power end of multiple ejected wave odd encoder three, three ripple of multiple ejected wave odd encoder, four yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder three is connected.

The ripple oscillating circuit of multiple ejected wave odd encoder three switchs ground terminal, the ripple trigram electronic switch ground terminal of multiple ejected wave odd encoder three, multiple ejected wave odd encoder three ripples, four yards of electronic switch ground terminals, the ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit ground terminal, and the ripple dicode launching electronics circuit ground end of multiple ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire.

The ripple oscillating circuit of multiple ejected wave odd encoder three switch two output ends respectively with the ripple trigram electronic switch controling end of multiple ejected wave odd encoder three, multiple ejected wave odd encoder three ripples, four yards of electronic switch controling ends are connected.

The ripple trigram electronic switch output end of multiple ejected wave odd encoder three respectively with the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit power end of the ripple of ejected wave odd encoder three is connected.

The coded electronic circuit ground end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit ground terminal of the ripple of ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire respectively.

The multiple coded electronic circuit output end of three ripple of ejected wave odd encoder three is connected with the multiple three-code encoded output circuit input of the ripple of ejected wave odd encoder three, and the multiple three-code encoded output circuit output end of the ripple of ejected wave odd encoder three is connected with the input of the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit one.

Three ripple of multiple ejected wave odd encoder, four yards of electronic switch output ends respectively with the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit power end of multiple ejected wave odd encoder three is connected.

The coded electronic circuit ground end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit ground terminal of multiple ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire respectively.

Three ripple of multiple ejected wave odd encoder, four yards of code coded electronic circuit output ends are connected with the ripple four code encoding output circuit input of multiple ejected wave odd encoder three, and the ripple four code encoding output circuit output end of multiple ejected wave odd encoder three is connected with the input of the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit one.

The ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder three。

2nd, a kind of multiple ejected wave of the multiple ejected wave odd encoder remote control scheme of automobile is combined for the first transmitted wave with the second transmitted wave and the 3rd transmitted wave.

3rd, a kind of odd encoder of the multiple ejected wave odd encoder remote control scheme of automobile is a coding and a coding and a coding and a coding and a coding and No. two combinations of coding.

4th, a kind of odd encoder of the multiple ejected wave odd encoder remote control scheme of automobile is No. two codings and a coding and No. two codings and No. two codings and a coding and No. two combinations of coding.

5th, a kind of odd encoder of the multiple ejected wave odd encoder remote control scheme of automobile is No. two codings and a coding and No. two codings and a coding and a coding and No. two combinations of coding.

Its operation principle is as follows：

Multiple ejected wave odd encoder button switch one end connects multiple ejected wave odd encoder battery supply positive pole, the multiple ejected wave odd encoder button switch other end and the total electronic circuit switch element power end of multiple ejected wave odd encoder, the ripple electronic switch power end of multiple ejected wave odd encoder one, the ripple electronic switch power end of multiple ejected wave odd encoder two, the connection of the ripple electronic switch power end of multiple ejected wave odd encoder three.

The multiple total electronic circuit switch element ground wire of ejected wave odd encoder, the ripple electronic switch ground wire of multiple ejected wave odd encoder one, the ripple electronic switch ground wire of multiple ejected wave odd encoder two, the ripple electronic switch ground wire of multiple ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire.

So when the button of multiple ejected wave odd encoder button switch circuit is pressed, the multiple total electronic circuit switch element of ejected wave odd encoder switches on power and proceeds by work；The multiple total electronic circuit switch element of ejected wave odd encoder is by the total electronic impulse circuit of multiple ejected wave odd encoder, the multiple total decimal counting circuit of ejected wave odd encoder, the multiple total clear circuit composition of ejected wave odd encoder；The multiple total electronic impulse circuit of ejected wave odd encoder switches on power and starts to vibrate output pulse signal, when first pulse signal enters into the total decimal counting circuit of multiple ejected wave odd encoder, the multiple total electronic circuit switch element of ejected wave odd encoder external three output ends Q1, Q2, Q3, tri- output ends of Q1, Q2, Q3 that the i.e. multiple total decimal counting circuit of ejected wave odd encoder is counted, wherein Q1 is output as high potential, Q2, Q3, is output as low potential respectively.

Three pulse output end Q1 of the multiple total electronic circuit switch element of ejected wave odd encoder, Q2, Q3, respectively with the ripple electronic switch controling end of multiple ejected wave odd encoder one, the ripple electronic switch controling end of multiple ejected wave odd encoder two, the ripple electronic switch controling end of multiple ejected wave odd encoder three is connected.

The ripple electronic switch controling end of multiple ejected wave odd encoder one, the ripple electronic switch controling end of multiple ejected wave odd encoder two, the ripple electronic switch controling end of multiple ejected wave odd encoder three have voltage output for high potential will be opened；The ripple electronic switch controling end of multiple ejected wave odd encoder one, the ripple electronic switch controling end of multiple ejected wave odd encoder two, the ripple electronic switch controling end of multiple ejected wave odd encoder three will be closed Non voltage output for low potential.

Q1 is output as high potential to the ripple electronic switch controling end of multiple ejected wave odd encoder one in three external output ends of the multiple total electronic circuit switch element of ejected wave odd encoder, and the ripple electronic switch of multiple ejected wave odd encoder one is opened into output voltage；Q2, Q3 in external another two output ends of the multiple total electronic circuit switch element of ejected wave odd encoder, respectively to the ripple electronic switch controling end of multiple ejected wave odd encoder two, the ripple electronic switch controling end of multiple ejected wave odd encoder three exports low potential, the ripple electronic switch of multiple ejected wave odd encoder two is closed with the ripple electronic switch of multiple ejected wave odd encoder three respectively, their Non voltage outputs；The multiple ejected wave odd encoder remote control scheme of such a automobile opens the preparatory stage of the transmitting of the multiple coding circuit of one ripple of ejected wave odd encoder two, and the emission process for closing the multiple coding circuit of two ripple of ejected wave odd encoder two and the multiple coding circuit of three ripple of ejected wave odd encoder two is also started simultaneously.

Similarly, the ripple electronic switch output end of multiple ejected wave odd encoder two of the multiple coding circuit of two ripple of ejected wave odd encoder two respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder two, two ripple of multiple ejected wave odd encoder, five yards of electronic switch power ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder two is connected.

The ripple electronic switch controling end of multiple ejected wave odd encoder two is low-voltage, the ripple electronic switch output end Non voltage output of multiple ejected wave odd encoder two, the ripple electronic switching circuit output end Non voltage output of multiple ejected wave odd encoder two, two ripple of multiple ejected wave odd encoder, five yards of electronic switch power ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit power end, and the equal access failure power supply in ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder two does not work；The coded electronic circuit power end of multiple two ripple of ejected wave odd encoder five, two ripple of multiple ejected wave odd encoder, five yards of coding output circuit power ends, the coded electronic circuit power end of multiple two ripple of ejected wave odd encoder six, two ripple of multiple ejected wave odd encoder, six yards of coding output circuit power ends, also access failure power supply also do not work.

So the multiple coded electronic circuit of two ripple of ejected wave odd encoder five, the multiple coded electronic circuit of two ripple of ejected wave odd encoder six does not carry out coding work, also without the coded electronic circuit code signal of multiple two ripple of ejected wave odd encoder five, and the multiple coded electronic circuit code signal output of two ripple of ejected wave odd encoder six, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two is also without the multiple coded electronic circuit code signal of two ripple of ejected wave odd encoder five and the coded electronic circuit code signal of multiple two ripple of ejected wave odd encoder six to emission, the ripple dicode launching electronics circuit access failure power supply of multiple ejected wave odd encoder two can not be launched.

Similarly, the ripple electronic switch output end of multiple ejected wave odd encoder three of the multiple coding circuit of three ripple of ejected wave odd encoder two respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder three, the ripple trigram electronic switch power end of multiple ejected wave odd encoder three, three ripple of multiple ejected wave odd encoder, four yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder three is connected.

The ripple electronic switch controling end of multiple ejected wave odd encoder three is low-voltage, the ripple electronic switch output end Non voltage output of multiple ejected wave odd encoder three, the ripple electronic switching circuit output end Non voltage output of multiple ejected wave odd encoder three, the ripple trigram electronic switch power end of multiple ejected wave odd encoder three, three ripple of multiple ejected wave odd encoder, four yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit power end, and the equal access failure power supply in ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder three does not work；The coded electronic circuit power end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit power end of the ripple of ejected wave odd encoder three, the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit power end of multiple ejected wave odd encoder three, also access failure power supply also do not work.

So the multiple coded electronic circuit of three ripple of ejected wave odd encoder three, the multiple coded electronic circuit of three ripple of ejected wave odd encoder four does not carry out coding work, also without the coded electronic circuit code signal of multiple three ripple of ejected wave odd encoder three, and the multiple coded electronic circuit code signal output of three ripple of ejected wave odd encoder four, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three is also without the multiple coded electronic circuit code signal of three ripple of ejected wave odd encoder three and the coded electronic circuit code signal of multiple three ripple of ejected wave odd encoder four to emission, the ripple dicode launching electronics circuit access failure power supply of multiple ejected wave odd encoder three can not be launched.

So, the multiple coding circuit of two ripple of ejected wave odd encoder two and the multiple coding circuit of three ripple of ejected wave odd encoder two are closed, and no signal is to emission.

And Q1 is output as high potential to the ripple electronic switch controling end of multiple ejected wave odd encoder one during the total electronic circuit switch element of multiple ejected wave odd encoder keeps external three output ends, the ripple electronic switch of multiple ejected wave odd encoder one is opened into output voltage；Thus open the preparatory stage of the transmitting of the multiple coding circuit of one ripple of ejected wave odd encoder two.

The ripple electronic switch output end of multiple ejected wave odd encoder one of the multiple coding circuit of one ripple of ejected wave odd encoder two respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of electronic switch power end, one ripple of multiple ejected wave odd encoder, two yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder one is connected.

The ripple electronic switch of multiple ejected wave odd encoder one opens output voltage, the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of electronic switch power end, one ripple of multiple ejected wave odd encoder, two yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder one switches on power start-up operation.

The ripple oscillating circuit switch connection power supply of multiple ejected wave odd encoder one starts vibration, two output ends of the ripple oscillating circuit of multiple ejected wave odd encoder one switch outwards export high potential and low potential each other, or two signals of low potential and high potential each other respectively in the same time.

The ripple oscillating circuit of multiple ejected wave odd encoder one switch two output ends respectively with multiple ejected wave odd encoder one ripple, one yard of electronic switch controling end, one ripple of multiple ejected wave odd encoder, two yards of electronic switch controling ends connections；The ripple oscillating circuit of multiple ejected wave odd encoder one switchs two output ends respectively to multiple ejected wave odd encoder one ripple, one yard of electronic switch controling end, multiple ejected wave odd encoder one ripple, two yards of electronic switch controling ends same time outwards exports high potential and low potential each other, or two signals of low potential and high potential each other respectively；Multiple ejected wave odd encoder one ripple, one yard of electronic switch controling end, when one ripple of multiple ejected wave odd encoder, two yards of electronic switch controling ends are high potential signal, to be opened output voltage, multiple ejected wave odd encoder one ripple, one yard of electronic switch controling end, when one ripple of multiple ejected wave odd encoder, two yards of electronic switch controling ends are low-potential signal, will be closed Non voltage output.

When the ripple oscillating circuit output switching terminal of multiple ejected wave odd encoder one is to one ripple of multiple ejected wave odd encoder, one yard of electronic switch controling end output high potential signal, multiple ejected wave odd encoder one ripple, one yard of electronic switch will be opened, by outside output voltage；When the ripple oscillating circuit of multiple ejected wave odd encoder one switchs another output end to one ripple of multiple ejected wave odd encoder, two yards of electronic switch controling end output low-potential signals, multiple ejected wave odd encoder one ripple, two yards of electronic switches will be closed Non voltage output.

When the ripple oscillating circuit of multiple ejected wave odd encoder one switch keeps this state constant, a kind of multiple ejected wave odd encoder remote control scheme of automobile has been switched on the emission process of one yard of one ripple of multiple ejected wave odd encoder of the multiple coding circuit of one ripple of ejected wave odd encoder two, while also starting the emission process of two yards of one ripple of multiple ejected wave odd encoder for closing the multiple coding circuit of one ripple of ejected wave odd encoder two.

When one ripple of multiple ejected wave odd encoder, one yard of electronic switching circuit control end of the multiple coding circuit of one ripple of ejected wave odd encoder two is high potential, multiple ejected wave odd encoder one ripple, one yard of electronic switching circuit will be opened output voltage.

The coded electronic circuit power end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit power end is started working after switching on power, and the multiple coded electronic circuit of one ripple of ejected wave odd encoder one proceeds by coding work；Multiple ejected wave odd encoder one ripple, one yard of encoded signal that the multiple coded electronic circuit of one ripple of ejected wave odd encoder one will be finished, multiple ejected wave odd encoder one ripple, one yard of coding output circuit is passed to, multiple ejected wave odd encoder one ripple, one yard of coding output circuit passes to the input of the ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit one again；The ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder one；One ripple of multiple ejected wave odd encoder, one yard of encoded signal that the multiple coded electronic circuit of one ripple of ejected wave odd encoder one is finished passes to the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one to emission multi-emitting ripple odd encoder one ripple, one yard of encoded signal through one ripple of multiple ejected wave odd encoder, one yard of coding output circuit and the ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit.

When one ripple of multiple ejected wave odd encoder, two yards of electronic switching circuit control ends are low potential, multiple ejected wave odd encoder one ripple, two yards of electronic switching circuits will be closed Non voltage output.

One ripple of multiple ejected wave odd encoder, two yards of electronic switching circuit output ends respectively with the coded electronic circuit power end of multiple one ripple of ejected wave odd encoder two, one ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends are connected.

The coded electronic circuit power end of multiple one ripple of ejected wave odd encoder two, one ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends are not worked due to access failure power supply, so the multiple coded electronic circuit of one ripple of ejected wave odd encoder two does not carry out coding work, also without one ripple of multiple ejected wave odd encoder, two yards of encoded signal outputs, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one is also without one ripple, the two yards of transmittings of encoded signal of multiple ejected wave odd encoder.

The multiple ejected wave odd encoder remote control scheme of such a automobile just outwards completes being worked to emission for one yard of one ripple of multiple ejected wave odd encoder of the multiple coding circuit of one ripple of ejected wave odd encoder two.

It is a high position the multiple total electronic circuit switch element 1 of ejected wave odd encoder, 2,3, the output end Q1 of individual pulse is kept, the original state of Q2, Q3 low level is constant, the i.e. multiple ripple electronic switching circuit control end of ejected wave odd encoder one is still high potential, and the ripple electronic switching circuit control end of multiple ejected wave odd encoder two is with the ripple electronic switching circuit control end of multiple ejected wave odd encoder three still in the case of low potential.

The ripple oscillating circuit on-off circuit of multiple ejected wave odd encoder one overturns, the ripple oscillating circuit switching circuitry output of multiple ejected wave odd encoder one is changed into high potential to the electric signal that one ripple of multiple ejected wave odd encoder, two yards of electronic switching circuit control ends are exported by low potential, and multiple ejected wave odd encoder one ripple, two yards of electronic switching circuits will be opened output voltage.

When the ripple oscillating circuit switching circuitry output of multiple ejected wave odd encoder one is changed into low potential to the electric signal that one ripple of multiple ejected wave odd encoder, one yard of electronic switching circuit control end is exported by high potential, multiple ejected wave odd encoder one ripple, one yard of electronic switching circuit will close Non voltage output.

At this moment a kind of multiple ejected wave odd encoder remote control scheme of automobile is switched on two yards of one ripple of multiple ejected wave odd encoder of the multiple coding circuit of one ripple of ejected wave odd encoder two and starts the process of transmitting, while also start closing the closing process that one yard of one ripple of multiple ejected wave odd encoder of the multiple coding circuit of one ripple of ejected wave odd encoder two is launched.

One ripple of multiple ejected wave odd encoder, one yard of electronic switching circuit output end respectively with the coded electronic circuit power end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit power end is connected.

The coded electronic circuit power end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit power end is not worked due to access failure power supply, so the multiple coded electronic circuit of one ripple of ejected wave odd encoder one does not carry out coding work, also without one ripple of multiple ejected wave odd encoder, one yard of encoded signal output, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one is also without multiple ejected wave odd encoder one ripple, one yard of encoded signal to emission.

When one ripple of multiple ejected wave odd encoder, two yards of electronic switching circuit control ends are high potential, multiple ejected wave odd encoder one ripple, two yards of electronic switching circuits will be opened output voltage；The coded electronic circuit power end of multiple one ripple of ejected wave odd encoder two, one ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends are started working after switching on power, and the multiple coded electronic circuit of one ripple of ejected wave odd encoder two proceeds by multiple ejected wave odd encoder one ripple, two yards of codings of encoded signal；Multiple ejected wave odd encoder one ripple, two yards of encoded signals that the multiple coded electronic circuit of one ripple of ejected wave odd encoder two will be finished, multiple ejected wave odd encoder one ripple, two yards of coding output circuits are passed to, multiple ejected wave odd encoder one ripple, two yards of coding output circuits pass to the input of the ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit one again；The ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder one；One ripple of multiple ejected wave odd encoder, two yards of encoded signals that the multiple coded electronic circuit of one ripple of ejected wave odd encoder two will be finished are exported to the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one to emission multi-emitting ripple odd encoder one ripple, two yards of encoded signals through the ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit.

The multiple encoded signal of one ripple of ejected wave odd encoder two that the multiple ejected wave odd encoder remote control scheme of such a automobile just completes the multiple coding circuit of one ripple of ejected wave odd encoder two works to emission.

Change is there occurs in the total electronic circuit switch element output state of multiple ejected wave odd encoder, the multiple total electronic impulse circuit of ejected wave odd encoder have input second pulse signal to the total decimal counting circuit counting input end of multiple ejected wave odd encoder.

The multiple total electronic circuit switch element of ejected wave odd encoder external three output ends Q1, Q2, Q3, three output ends Q1, Q2 that the total decimal counting circuit of i.e. multiple ejected wave odd encoder is counted, the Q2 of Q3 are output as high potential, Q1, Q3, are output as low potential respectively；Q2 is output as high potential to the ripple electronic switch controling end of multiple ejected wave odd encoder two in three external output ends of the multiple total electronic circuit switch element of ejected wave odd encoder, and the ripple electronic switch of multiple ejected wave odd encoder two is opened into output voltage；Q1, Q3 in three external output ends of the multiple total electronic circuit switch element of ejected wave odd encoder, respectively to the ripple electronic switch controling end of multiple ejected wave odd encoder one, the ripple electronic switch controling end of multiple ejected wave odd encoder three exports low potential, respectively by the ripple electronic switch of multiple ejected wave odd encoder two, the ripple electronic switch of multiple ejected wave odd encoder three is closed, Non voltage output；The multiple ejected wave odd encoder remote control scheme of such a automobile opens the launching phase of the multiple coding circuit of two ripple of ejected wave odd encoder two, and the multiple coding circuit of one ripple of ejected wave odd encoder two and the multiple coding circuit of three ripple of ejected wave odd encoder two transmitting closing process are also started simultaneously.

The ripple electronic switching circuit control end of multiple ejected wave odd encoder one of the multiple coding circuit of one ripple of ejected wave odd encoder two, and the ripple electronic switching circuit control end of multiple ejected wave odd encoder three of the multiple coding circuit of three ripple of ejected wave odd encoder two is when being all low potential, the ripple electronic switching circuit of multiple ejected wave odd encoder one, and the ripple electronic switching circuit of multiple ejected wave odd encoder three will be closed Non voltage output.

The ripple electronic switching circuit output end Non voltage output of multiple ejected wave odd encoder one, the ripple oscillating circuit on-off circuit power end of multiple ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of electronic switch power end, one ripple of multiple ejected wave odd encoder, two yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit power end, and the equal access failure power supply in ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder one does not work.

The coded electronic circuit power end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit power end；The coded electronic circuit power end of multiple one ripple of ejected wave odd encoder two, one ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends, also access failure power supply also do not work；So the multiple coded electronic circuit of one ripple of ejected wave odd encoder one, the multiple coded electronic circuit of one ripple of ejected wave odd encoder two does not carry out coding work, also without the coded electronic circuit code signal of multiple one ripple of ejected wave odd encoder one, and the multiple coded electronic circuit code signal output of one ripple of ejected wave odd encoder two, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one is also without the coded electronic circuit code signal of multiple one ripple of ejected wave odd encoder one, and the coded electronic circuit code signal of multiple one ripple of ejected wave odd encoder two is to emission.The ripple dicode launching electronics circuit access failure power supply of multiple ejected wave odd encoder one can not carry out launch mission.

Similarly, the ripple electronic switch controling end of multiple ejected wave odd encoder three of the multiple coding circuit of three ripple of ejected wave odd encoder two is low-voltage, the ripple electronic switch output end Non voltage output of multiple ejected wave odd encoder three.

The ripple electronic switching circuit output end Non voltage output of multiple ejected wave odd encoder three, the ripple oscillating circuit on-off circuit power end of multiple ejected wave odd encoder three, the ripple trigram electronic switch power end of multiple ejected wave odd encoder three, three ripple of multiple ejected wave odd encoder, four yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit power end, and the equal access failure power supply in ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder three does not work.

The coded electronic circuit power end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit power end of the ripple of ejected wave odd encoder three, the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit power end of multiple ejected wave odd encoder three, also access failure power supply also do not work；So the multiple coded electronic circuit of three ripple of ejected wave odd encoder three, the multiple coded electronic circuit of three ripple of ejected wave odd encoder four does not carry out coding work, also without the coded electronic circuit code signal of multiple three ripple of ejected wave odd encoder three, and the multiple coded electronic circuit code signal output of three ripple of ejected wave odd encoder four, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three is also without the coded electronic circuit code signal of multiple three ripple of ejected wave odd encoder three, and the coded electronic circuit code signal of multiple three ripple of ejected wave odd encoder four is to emission.The ripple dicode launching electronics circuit access failure power supply of multiple ejected wave odd encoder three can not carry out launch mission.

So start the multiple coding circuit of one ripple of ejected wave odd encoder two and the multiple coding circuit of three ripple of ejected wave odd encoder two transmitting closing process.

And Q2 is output as high potential to the ripple electronic switch controling end of multiple ejected wave odd encoder two during the total electronic circuit switch element of multiple ejected wave odd encoder keeps external three output ends, the ripple electronic switch of multiple ejected wave odd encoder two is opened into output voltage；Thus open the preparatory stage of the transmitting of the multiple coding circuit of two ripple of ejected wave odd encoder two.

The ripple electronic switch output end of multiple ejected wave odd encoder two of the multiple coding circuit of two ripple of ejected wave odd encoder two respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder two, two ripple of multiple ejected wave odd encoder, five yards of electronic switch power ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder two is connected.

The ripple electronic switch of multiple ejected wave odd encoder two opens output voltage, the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder two, two ripple of multiple ejected wave odd encoder, five yards of electronic switch power ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder two switches on power start-up operation.

The ripple oscillating circuit switch connection power supply of multiple ejected wave odd encoder two starts vibration, two output ends of the ripple oscillating circuit of multiple ejected wave odd encoder two switch outwards export high potential and low potential each other, or two signals of low potential and high potential each other respectively in the same time.

The ripple oscillating circuit of multiple ejected wave odd encoder two switch two output ends respectively with multiple ejected wave odd encoder two ripples, five yards of electronic switch controling ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch controling ends connections；The ripple oscillating circuit of multiple ejected wave odd encoder two switchs two output ends respectively to multiple ejected wave odd encoder two ripples, five yards of electronic switch controling ends, multiple ejected wave odd encoder two ripples, six yards of electronic switch controling ends same time outwards exports high potential and low potential each other, or two signals of low potential and high potential each other respectively；Multiple ejected wave odd encoder two ripples, five yards of electronic switch controling ends, when two ripple of multiple ejected wave odd encoder, six yards of electronic switch controling ends are high potential signal, to be opened output voltage, multiple ejected wave odd encoder two ripples, five yards of electronic switch controling ends, when two ripple of multiple ejected wave odd encoder, six yards of electronic switch controling ends are low-potential signal, will be closed Non voltage output.

When the ripple oscillating circuit output switching terminal of multiple ejected wave odd encoder two is to two ripple of multiple ejected wave odd encoder, five yards of electronic switch controling end output high potential signals, multiple ejected wave odd encoder two ripples, five yards of electronic switches will be opened, by outside output voltage；When the ripple oscillating circuit of multiple ejected wave odd encoder two switchs another output end to two ripple of multiple ejected wave odd encoder, six yards of electronic switch controling end output low-potential signals, multiple ejected wave odd encoder two ripples, six yards of electronic switches will be closed Non voltage output.

When the ripple oscillating circuit of multiple ejected wave odd encoder two switch keeps this state constant, a kind of multiple ejected wave odd encoder remote control scheme of automobile has been switched on the emission process of five yards of two ripple of multiple ejected wave odd encoder of the multiple coding circuit of two ripple of ejected wave odd encoder two, while also starting the emission process of six yards of two ripple of multiple ejected wave odd encoder for closing the multiple coding circuit of two ripple of ejected wave odd encoder six.

When two ripple of multiple ejected wave odd encoder, five yards of electronic switching circuit control ends of the multiple coding circuit of two ripple of ejected wave odd encoder two are high potential, multiple ejected wave odd encoder two ripples, five yards of electronic switching circuits will be opened output voltage.

The coded electronic circuit power end of multiple two ripple of ejected wave odd encoder five, the multiple coding of two ripple of ejected wave odd encoder five output circuit power end is started working after switching on power, and the multiple coded electronic circuit of two ripple of ejected wave odd encoder five proceeds by coding work；The multiple encoded signal of two ripple of ejected wave odd encoder five that the multiple coded electronic circuit of two ripple of ejected wave odd encoder five will be finished, the multiple coding of two ripple of ejected wave odd encoder five output circuit is passed to, the multiple coding of two ripple of ejected wave odd encoder five output circuit passes to the input of the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit one again；The ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder two；The multiple encoded signal of two ripple of ejected wave odd encoder five that the multiple coded electronic circuit of two ripple of ejected wave odd encoder five is finished encodes output circuit through multiple two ripple of ejected wave odd encoder five and the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit passes to the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two to the encoded signal of two ripple of emission multi-emitting ripple odd encoder five.

When two ripple of multiple ejected wave odd encoder, six yards of electronic switching circuit control ends are low potential, multiple ejected wave odd encoder two ripples, six yards of electronic switching circuits will be closed Non voltage output.

Two ripple of multiple ejected wave odd encoder, six yards of electronic switching circuit output ends respectively with the coded electronic circuit power end of multiple two ripple of ejected wave odd encoder six, multiple two ripple of ejected wave odd encoder six coding output circuit power end is connected.

The coded electronic circuit power end of multiple two ripple of ejected wave odd encoder six, the multiple coding output circuit power end of two ripple of ejected wave odd encoder six is not worked due to access failure power supply, so the multiple coded electronic circuit of two ripple of ejected wave odd encoder six does not carry out coding work, also exported without the multiple encoded signal of two ripple of ejected wave odd encoder six, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two is also without the transmitting of the multiple encoded signal of two ripple of ejected wave odd encoder six.

The multiple ejected wave odd encoder remote control scheme of such a automobile just outwards completes being worked to emission for five yards of two ripple of multiple ejected wave odd encoder of the multiple coding circuit of two ripple of ejected wave odd encoder two.

It is a high position the multiple total electronic circuit switch element 1 of ejected wave odd encoder, 2,3, the output end Q2 of individual pulse is kept, the original state of Q1, Q3 low level is constant, the i.e. multiple ripple electronic switching circuit control end of ejected wave odd encoder two is still high potential, and the ripple electronic switching circuit control end of multiple ejected wave odd encoder one is with the ripple electronic switching circuit control end of multiple ejected wave odd encoder three still in the case of low potential.

The ripple oscillating circuit on-off circuit of multiple ejected wave odd encoder two overturns, the ripple oscillating circuit switching circuitry output of multiple ejected wave odd encoder two is changed into high potential to the electric signal that two ripple of multiple ejected wave odd encoder, six yards of electronic switching circuit control ends are exported by low potential, and multiple ejected wave odd encoder two ripples, six yards of electronic switching circuits will be opened output voltage.

When the ripple oscillating circuit switching circuitry output of multiple ejected wave odd encoder two is changed into low potential to the electric signal that two ripple of multiple ejected wave odd encoder, five yards of electronic switching circuit control ends are exported by high potential, multiple ejected wave odd encoder two ripples, five yards of electronic switching circuits will close Non voltage output.

At this moment a kind of multiple ejected wave odd encoder remote control scheme of automobile is switched on six yards of two ripple of multiple ejected wave odd encoder of the multiple coding circuit of two ripple of ejected wave odd encoder two and starts the process of transmitting, while also start closing the closing process that five yards of two ripple of multiple ejected wave odd encoder of the multiple coding circuit of two ripple of ejected wave odd encoder two is launched.

Two ripple of multiple ejected wave odd encoder, two yards of electronic switching circuit output ends respectively with the coded electronic circuit power end of multiple two ripple of ejected wave odd encoder five, multiple two ripple of ejected wave odd encoder five coding output circuit power end is connected.

The coded electronic circuit power end of multiple two ripple of ejected wave odd encoder five, the multiple coding output circuit power end of two ripple of ejected wave odd encoder five is not worked due to access failure power supply, so the multiple coded electronic circuit of two ripple of ejected wave odd encoder five does not carry out coding work, also exported without the multiple encoded signal of two ripple of ejected wave odd encoder five, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two is also without the multiple encoded signal of two ripple of ejected wave odd encoder five to emission.

When two ripple of multiple ejected wave odd encoder, six yards of electronic switching circuit control ends are high potential, multiple ejected wave odd encoder two ripples, six yards of electronic switching circuits will be opened output voltage；The coded electronic circuit power end of multiple two ripple of ejected wave odd encoder six, the multiple coding of two ripple of ejected wave odd encoder six output circuit power end is started working after switching on power, and the multiple coded electronic circuit of two ripple of ejected wave odd encoder six proceeds by the coding of the multiple encoded signal of two ripple of ejected wave odd encoder six；The multiple encoded signal of two ripple of ejected wave odd encoder six that the multiple coded electronic circuit of two ripple of ejected wave odd encoder six will be finished, the multiple coding of two ripple of ejected wave odd encoder six output circuit is passed to, the multiple coding of two ripple of ejected wave odd encoder six output circuit passes to the input of the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit one again；The ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder two；The multiple encoded signal of two ripple of ejected wave odd encoder six that the multiple coded electronic circuit of two ripple of ejected wave odd encoder six will be finished is exported to the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two to the encoded signal of two ripple of emission multi-emitting ripple odd encoder six through the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit.

The multiple encoded signal of two ripple of ejected wave odd encoder six that the multiple ejected wave odd encoder remote control scheme of such a automobile just completes the multiple coding circuit of two ripple of ejected wave odd encoder two works to emission.

Change is there occurs in the total electronic circuit switch element output state of multiple ejected wave odd encoder, the multiple total electronic impulse circuit of ejected wave odd encoder have input the 3rd pulse signal to the total decimal counting circuit counting input end of multiple ejected wave odd encoder.

The multiple total electronic circuit switch element of ejected wave odd encoder external three output ends Q1, Q2, Q3, i.e., three output end Q3 that the multiple total decimal counting circuit of ejected wave odd encoder is counted are high potential, and Q1, Q2 are output as low potential respectively；Q3 is output as high potential to the ripple electronic switch controling end of multiple ejected wave odd encoder three in three external output ends of the multiple total electronic circuit switch element of ejected wave odd encoder, and the ripple electronic switch of multiple ejected wave odd encoder three is opened into output voltage；Q1, Q2 in three external output ends of the multiple total electronic circuit switch element of ejected wave odd encoder, respectively to the ripple electronic switch controling end of multiple ejected wave odd encoder one, the ripple electronic switch controling end of multiple ejected wave odd encoder two exports low potential, respectively by the ripple electronic switch of multiple ejected wave odd encoder one, the ripple electronic switch of multiple ejected wave odd encoder two is closed, Non voltage output；The multiple ejected wave odd encoder remote control scheme of such a automobile opens the launching phase of the multiple coding circuit of three ripple of ejected wave odd encoder two, and the closing multiple coding circuit of one ripple of ejected wave odd encoder two and the multiple coding circuit emission process of two ripple of ejected wave odd encoder two are also started simultaneously.

The ripple electronic switch controling end of multiple ejected wave odd encoder one of the multiple coding circuit of one ripple of ejected wave odd encoder two is low-voltage, the ripple electronic switch output end Non voltage output of multiple ejected wave odd encoder one；The ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of electronic switch power end, one ripple of multiple ejected wave odd encoder, two yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit power end, and the equal access failure power supply in ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder one does not work.

The coded electronic circuit power end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit power end, the coded electronic circuit power end of multiple one ripple of ejected wave odd encoder two, one ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends, also access failure power supply also do not work.

So the multiple coded electronic circuit of one ripple of ejected wave odd encoder one, the multiple coded electronic circuit of one ripple of ejected wave odd encoder two does not carry out coding work, also without the coded electronic circuit code signal of multiple one ripple of ejected wave odd encoder one, and the multiple coded electronic circuit code signal output of one ripple of ejected wave odd encoder two, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one also without the coded electronic circuit code signal of multiple one ripple of ejected wave odd encoder one, also without the coded electronic circuit code signal of multiple one ripple of ejected wave odd encoder two to emission.The ripple dicode launching electronics circuit access failure power supply of multiple ejected wave odd encoder one can not carry out launch mission.

Similarly, the ripple electronic switch output end of multiple ejected wave odd encoder two of the multiple coding circuit of two ripple of ejected wave odd encoder two respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder two, two ripple of multiple ejected wave odd encoder, five yards of electronic switch power ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder two is connected.

The ripple electronic switch controling end of multiple ejected wave odd encoder two is low-voltage, the ripple electronic switch output end Non voltage output of multiple ejected wave odd encoder two, the ripple electronic switching circuit output end Non voltage output of multiple ejected wave odd encoder two, two ripple of multiple ejected wave odd encoder, five yards of electronic switch power ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit power end, and the equal access failure power supply in ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder two does not work；The coded electronic circuit power end of multiple two ripple of ejected wave odd encoder five, two ripple of multiple ejected wave odd encoder, five yards of coding output circuit power ends, the coded electronic circuit power end of multiple two ripple of ejected wave odd encoder six, two ripple of multiple ejected wave odd encoder, six yards of coding output circuit power ends, also access failure power supply also do not work.

So the multiple coded electronic circuit of two ripple of ejected wave odd encoder five, the multiple coded electronic circuit of two ripple of ejected wave odd encoder six does not carry out coding work, also without the coded electronic circuit code signal of multiple two ripple of ejected wave odd encoder five, and the multiple coded electronic circuit code signal output of two ripple of ejected wave odd encoder six, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two is also without the multiple coded electronic circuit code signal of two ripple of ejected wave odd encoder five and the coded electronic circuit code signal of multiple two ripple of ejected wave odd encoder six to emission, the ripple dicode launching electronics circuit access failure power supply of multiple ejected wave odd encoder two can not be launched.

So, the multiple coding circuit of one ripple of ejected wave odd encoder two and the multiple coding circuit of two ripple of ejected wave odd encoder two are closed, and no signal is to emission.

Q3 is output as high potential to the ripple electronic switch controling end of multiple ejected wave odd encoder three of the multiple coding circuit of three ripple of ejected wave odd encoder two in three external output ends of the multiple total electronic circuit switch element of ejected wave odd encoder, the ripple electronic switch of multiple ejected wave odd encoder three is opened into output voltage, the preparatory stage of the transmitting of the multiple coding circuit of three ripple of ejected wave odd encoder two is opened.

The ripple electronic switch of multiple ejected wave odd encoder three opens output voltage, the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder three, the ripple trigram electronic switch power end of multiple ejected wave odd encoder three, three ripple of multiple ejected wave odd encoder, four yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder three switches on power start-up operation.

The ripple oscillating circuit switch connection power supply of multiple ejected wave odd encoder three starts vibration, the ripple oscillating circuit of multiple ejected wave odd encoder three switchs two output ends, high potential and low potential each other are outwards exported respectively in the same time, or two unlike signals of low potential and high potential each other, the ripple oscillating circuit of multiple ejected wave odd encoder three switch two output ends respectively with the ripple trigram electronic switch controling end of multiple ejected wave odd encoder three, multiple ejected wave odd encoder three ripples, four yards of electronic switch controling ends are connected；The ripple oscillating circuit of multiple ejected wave odd encoder three switchs two output ends respectively to the ripple trigram electronic switch controling end of multiple ejected wave odd encoder three, multiple ejected wave odd encoder three ripples, four yards of electronic switch controling ends same time outwards exports high potential and low potential each other, or two signals of low potential and high potential each other respectively；When the ripple oscillating circuit output switching terminal of multiple ejected wave odd encoder three exports high potential signal to the ripple trigram electronic switch controling end of multiple ejected wave odd encoder three, the ripple trigram electronic switch of multiple ejected wave odd encoder three will be opened, by outside output voltage；The ripple oscillating circuit of multiple ejected wave odd encoder three switchs another output end while when exporting low-potential signal to three ripple of multiple ejected wave odd encoder, four yards of electronic switch controling ends, multiple ejected wave odd encoder three ripples, four yards of electronic switches will be closed Non voltage output.

When the ripple oscillating circuit of multiple ejected wave odd encoder three switch keeps this state constant, a kind of multiple ejected wave odd encoder remote control scheme of automobile has been switched on the emission process of the ripple trigram of multiple ejected wave odd encoder three of the multiple coding circuit of three ripple of ejected wave odd encoder two, while also starting the emission process of four yards of three ripple of multiple ejected wave odd encoder for closing the multiple coding circuit of three ripple of ejected wave odd encoder two.

When the ripple trigram electronic switching circuit control end of multiple ejected wave odd encoder three of the multiple coding circuit of three ripple of ejected wave odd encoder two is high potential, the ripple trigram electronic switching circuit of multiple ejected wave odd encoder three will be opened output voltage.

The ripple trigram electronic switching circuit output end of multiple ejected wave odd encoder three respectively with the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit power end of the ripple of ejected wave odd encoder three is connected,

The coded electronic circuit power end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit power end of the ripple of ejected wave odd encoder three is started working after switching on power, and the multiple coded electronic circuit of three ripple of ejected wave odd encoder three proceeds by coding work；The three-code encoded signal of the multiple ripple of ejected wave odd encoder three that the multiple coded electronic circuit of three ripple of ejected wave odd encoder three will be finished, the three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three is passed to, the three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three passes to the input of the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit one again；The ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder three.

The three-code encoded signal of the multiple ripple of ejected wave odd encoder three that the multiple coded electronic circuit of three ripple of ejected wave odd encoder three is finished passes to the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three to the three-code encoded signal of ripple of emission multi-emitting ripple odd encoder three through the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit.

Meanwhile, when three ripple of multiple ejected wave odd encoder, four yards of electronic switching circuit control ends are low potential, multiple ejected wave odd encoder three ripples, four yards of electronic switching circuits will be closed Non voltage output；The coded electronic circuit power end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit power end of multiple ejected wave odd encoder three is not worked due to access failure power supply, so the multiple coded electronic circuit of three ripple of ejected wave odd encoder four does not carry out coding work, also without the ripple four code encoding signal output of multiple ejected wave odd encoder three, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three is also outwards penetrated without the ripple four code encoding signal of multiple ejected wave odd encoder three.

The multiple ejected wave odd encoder remote control scheme of such a automobile just outwards completes the transmitting work of the ripple trigram of multiple ejected wave odd encoder three of the multiple coding circuit of three ripple of ejected wave odd encoder two.

It is low potential the multiple total electronic circuit switch element 1 of ejected wave odd encoder, 2,3, output end Q1, Q2 of individual pulse is kept, Q3 is constant for the state of high potential, i.e. five yard of three ripple electronic switching circuit control end of ripple is still high potential, and the ripple electronic switching circuit control end of multiple ejected wave odd encoder one is with the ripple electronic switching circuit control end of multiple ejected wave odd encoder two still in the case of low potential.

The ripple oscillating circuit on-off circuit of multiple ejected wave odd encoder three overturns, the ripple oscillating circuit on-off circuit of multiple ejected wave odd encoder three is changed into high potential to the electric signal that three ripple of multiple ejected wave odd encoder, four yards of electronic switching circuit control ends are exported by low potential, and multiple ejected wave odd encoder three ripples, four yards of electronic switching circuits will be opened output voltage；When the ripple oscillating circuit on-off circuit of multiple ejected wave odd encoder three is changed into low potential to the electric signal that the ripple trigram electronic switching circuit control end of multiple ejected wave odd encoder three is exported by high potential, the ripple trigram electronic switching circuit of multiple ejected wave odd encoder three will close Non voltage output.

Four yards of three ripple of multiple ejected wave odd encoder that the multiple ejected wave odd encoder remote control scheme of such a automobile is switched on the multiple coding circuit of three ripple of ejected wave odd encoder two starts the process of transmitting, while also starting the closing process of the ripple trigram of multiple ejected wave odd encoder three transmitting for closing the multiple coding circuit of three ripple of ejected wave odd encoder two.

The ripple trigram electronic switching circuit output end Non voltage output of multiple ejected wave odd encoder three, its output end and the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit power end of the ripple of ejected wave odd encoder three is connected, the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit power end of the ripple of ejected wave odd encoder three is not worked due to access failure power supply, so the multiple coded electronic circuit of three ripple of ejected wave odd encoder three does not carry out coding work, also without the three-code encoded signal output of the multiple ripple of ejected wave odd encoder three, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three is also without the three-code encoded signal of the multiple ripple of ejected wave odd encoder three to emission.

When three ripple of multiple ejected wave odd encoder, four yards of electronic switching circuit control ends are high potential, multiple ejected wave odd encoder three ripples, four yards of electronic switching circuits will be opened output voltage；Three ripple of multiple ejected wave odd encoder, four yards of electronic switching circuit output ends respectively with the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit power end of multiple ejected wave odd encoder three is connected；The coded electronic circuit power end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit power end of multiple ejected wave odd encoder three is started working after switching on power.

The multiple coded electronic circuit of three ripple of ejected wave odd encoder four proceeds by the coding of the ripple four code encoding signal of multiple ejected wave odd encoder three；The ripple four code encoding signal of multiple ejected wave odd encoder three that the multiple coded electronic circuit of three ripple of ejected wave odd encoder four will be finished, the ripple four code encoding output circuit of multiple ejected wave odd encoder three is passed to, the ripple four code encoding output circuit of multiple ejected wave odd encoder three passes to the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit again；The ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit output end is connected with multiple ejected wave odd encoder three ripples, four yards of launching electronics circuit input ends；The ripple four code encoding signal of multiple ejected wave odd encoder three that the multiple coded electronic circuit of three ripple of ejected wave odd encoder four will be finished passes to the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three to the ripple four code encoding signal of emission multi-emitting ripple odd encoder three through the ripple four code encoding OR gate output circuit of multiple ejected wave odd encoder three.

The multiple ejected wave odd encoder remote control scheme of such a automobile is just completed and worked to the ripple four code encoding signal of multiple ejected wave odd encoder three of the coding circuit of three ripple of emission multi-emitting ripple odd encoder two.

Thus a kind of multiple ejected wave odd encoder remote control scheme of automobile outwards completes the emission process of multiple ejected wave odd encoder a cycle in multiple ejected wave odd encoder transmitting design.

Three in a kind of multiple ejected wave odd encoder remote control scheme of automobile due to the total electronic switching circuit unit of multiple ejected wave odd encoder export Q1, Q2, Q1 ends alternately and repeatedly circulation change, and its cycle is most long；Q1, the state for high potential are kept at it, the control end of the i.e. multiple ripple electronic switching circuit of ejected wave odd encoder one is high potential, and the control end of the multiple ripple electronic switching circuit of ejected wave odd encoder two is low potential, the control end of the ripple electronic switching circuit of multiple ejected wave odd encoder three be low potential it is constant in the case of, due to the ripple oscillating circuit switch oscillating alternation of multiple ejected wave odd encoder one, and they complete the transmitting work of two yards of one yard of one ripple of multiple ejected wave odd encoder and one ripple of multiple ejected wave odd encoder of the multiple wave circuit of ejected wave odd encoder one with the cooperation of other circuits.

When the state of the total electronic switching circuit unit of multiple ejected wave odd encoder there occurs change, three output Q1 of the multiple total electronic switching circuit unit of ejected wave odd encoder, Q2, Q2 is high potential in Q3 ends, Q2, the output end of Q3 is respectively low potential, the control end of the i.e. multiple ripple electronic switching circuit of ejected wave odd encoder two is high potential, and the control end of the multiple ripple electronic switching circuit of ejected wave odd encoder one is low potential, the control end of the ripple electronic switching circuit of multiple ejected wave odd encoder three be low potential it is constant in the case of, due to the ripple oscillating circuit switch oscillating alternation of multiple ejected wave odd encoder two, and they complete the transmitting work of five yards of two ripple of multiple ejected wave odd encoder of the multiple wave circuit of ejected wave odd encoder two with the cooperation of other circuits.

When the state of the total electronic switching circuit unit of multiple ejected wave odd encoder there occurs change, three output Q1 of the multiple total electronic switching circuit unit of ejected wave odd encoder, Q2, Q3 is high potential in Q3 ends, Q1, the output end of Q2 is respectively low potential, the control end of the i.e. multiple ripple electronic switching circuit of ejected wave odd encoder three is high potential, and the control end of the multiple ripple electronic switching circuit of ejected wave odd encoder one is low potential, the control end of the ripple electronic switching circuit of multiple ejected wave odd encoder two be low potential it is constant in the case of, due to the ripple oscillating circuit switch oscillating alternation of multiple ejected wave odd encoder three, and they complete the transmitting work of four yards of the ripple trigram of multiple ejected wave odd encoder three and three ripple of multiple ejected wave odd encoder of the multiple wave circuit of ejected wave odd encoder three with the cooperation of other circuits.

When the multiple total electronic switching circuit unit of ejected wave odd encoder keeps the state of this circulation change, due to the ripple oscillating circuit of multiple ejected wave odd encoder one switch, the ripple oscillating circuit of multiple ejected wave odd encoder two is switched, the ripple oscillating circuit switch oscillating alternation of multiple ejected wave odd encoder three, and they complete two yards of one ripple of multiple ejected wave odd encoder, the transmitting work of two yards of two yards of two ripple of multiple ejected wave odd encoder and three ripple of multiple ejected wave odd encoder with the cooperation of other circuits.

A kind of multiple ejected wave odd encoder transmitting work in another cycle of a cycle of the multiple ejected wave odd encoder remote control scheme of automobile is completed like this, is disconnected until decontroling multiple ejected wave odd encoder button switch circuit.

The present invention has following outstanding advantages after implementing：

1st, a kind of multiple ejected wave odd encoder remote control scheme of automobile is multi-emitting waveshape due to putting into and releasing the transmitted wave that ordinary circumstance is used；Its form for being encoded to odd encoder flexible combination, or be No. two codings and a coding and No. two codings and a coding and a coding and No. two combinations of coding, for No. two coding with No. one coding with No. two coding with No. two coding with No. one coding with No. two coding etc. various changes combination, optimum efficiency can be played, significantly improve and catch strong with radio scanner criminal offence resistivity to use decoder, grabbing a yard device；There is very big competitiveness in market competition.

2nd, a kind of multiple ejected wave odd encoder remote control scheme of automobile is arranged on a launch-box, easy to use, good operation.

3rd, a kind of multiple ejected wave odd encoder remote control scheme of automobile be adapted to easily production install, it is stable and reliable for performance be applicable in, small enterprise production.

Brief description of the drawings

Fig. 1, it is a kind of multiple ejected wave odd encoder remote control scheme frame principle figure of automobile.

In figure：Square frame 1, the multiple ejected wave odd encoder battery supply of expression, square frame 2, the multiple ejected wave odd encoder button switch of expression, square frame 3, the multiple total electronic circuit switch element of ejected wave odd encoder of expression；Square frame 4, the multiple ripple electronic switch of ejected wave odd encoder one of expression, square frame 5, the multiple ripple oscillating circuit of ejected wave odd encoder one switch of expression；Square frame 6, expression one yard of electronic switch of multiple one ripple of ejected wave odd encoder, square frame 7, the multiple coded electronic circuit of one ripple of ejected wave odd encoder one of expression, square frame 8, expression one yard of coding output circuit of multiple one ripple of ejected wave odd encoder；Square frame 9, expression two yards of electronic switches of multiple one ripple of ejected wave odd encoder, square frame 10, the multiple coded electronic circuit of one ripple of ejected wave odd encoder two of expression, square frame 11, expression two yards of coding output circuits of multiple one ripple of ejected wave odd encoder；Square frame 12, the multiple ripple dicode of the ejected wave odd encoder one coding OR gate output circuit of expression, square frame 13, the multiple ripple dicode launching electronics circuit of ejected wave odd encoder one composition of expression；Square frame 14, the multiple ripple dicode launching electronics circuit of ejected wave odd encoder two composition of expression；Square frame 15, the multiple ripple electronic switch of ejected wave odd encoder two of expression, square frame 16, the multiple ripple oscillating circuit of ejected wave odd encoder two switch of expression；Square frame 17, expression five yards of electronic switches of multiple two ripple of ejected wave odd encoder, square frame 18, the multiple coded electronic circuit of two ripple of ejected wave odd encoder five of expression, square frame 19, expression five yards of coding output circuits of multiple two ripple of ejected wave odd encoder；Square frame 20, expression six yards of electronic switches of multiple two ripple of ejected wave odd encoder, square frame 21, the multiple coded electronic circuit of two ripple of ejected wave odd encoder six of expression, square frame 22, expression six yards of coding output circuits of multiple two ripple of ejected wave odd encoder；Square frame 23, the multiple ripple dicode of the ejected wave odd encoder two coding OR gate output circuit of expression, square frame 24, the multiple ripple electronic switch of ejected wave odd encoder three of expression, square frame 25, the multiple ripple oscillating circuit of ejected wave odd encoder three switch of expression；Square frame 26, the multiple ripple trigram electronic switch of ejected wave odd encoder three of expression, square frame 27, the multiple coded electronic circuit of three ripple of ejected wave odd encoder three of expression, square frame 28, the expression three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three；Square frame 29, expression four yards of electronic switches of multiple three ripple of ejected wave odd encoder, square frame 30, the multiple coded electronic circuit of three ripple of ejected wave odd encoder four of expression, square frame 31, the multiple ripple four code encoding output circuit of ejected wave odd encoder three of expression；Square frame 32, the multiple ripple dicode of the ejected wave odd encoder three coding OR gate output circuit of expression, square frame 33, the multiple ripple dicode launching electronics circuit of ejected wave odd encoder three of expression, square frame 36, the multiple coding circuit of one ripple of ejected wave odd encoder two of expression, square frame 37, the multiple coding circuit of two ripple of ejected wave odd encoder two of expression, square frame 38, the multiple coding circuit of three ripple of ejected wave odd encoder two of expression.

Fig. 2, it is the total electronic circuit switch element frame principle figure of multiple ejected wave odd encoder.

In figure：Square frame 3, expression；Square frame 3-1, the multiple total electronic impulse circuit of ejected wave odd encoder of expression；Square frame 3-2, the multiple total decimal counting circuit of ejected wave odd encoder of expression；Square frame 3-3, the multiple total clear circuit of ejected wave odd encoder of expression, Q1, the first pulse output of the decimal counting circuit of expression, Q2, the second pulse output of the decimal counting circuit of expression, Q3, expression the 3rd pulse of decimal counting circuit are exported.

Specific embodiment

Fig. 1, Fig. 2, a kind of mode for respectively representing a kind of multiple ejected wave odd encoder remote control scheme specific implementation of automobile.

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

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

3rd, check and hot- line test.

Associated contacts are checked with avometer, or oscillograph.

1st, multiple ejected wave odd encoder button switch is checked with ohmmeter first；Multiple ejected wave odd encoder button switch is pressed or decontroled with hand；With ohm table look-up multi-emitting ripple odd encoder 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 switching on power after short circuit phenomenon with ohm table look-up electronic control panel zero line and ground terminal.

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

（4）, inspection to the total electronics alteration switch of multiple ejected wave odd encoder, test three output ends of the total electronics alteration switch of multiple ejected wave odd encoder respectively with avometer positive pole or oscillograph positive signal input, the multiple total electronics alteration switch of ejected wave odd encoder will start working after switching on power, and be vibrated；Three output ends Q1, Q2 of the total electronics alteration switch of multiple ejected wave odd encoder, Q3 are tested respectively with avometer positive pole or oscillograph positive signal input, output will be sequentially output high, a different electric potential signal of two low three respectively；If can't detect, should check whether that element insertion makes a mistake with welding.

（5）, to the ripple electronic switch of multiple ejected wave odd encoder one, the ripple electronic switch of multiple ejected wave odd encoder two, the inspection of the ripple electronic switch of multiple ejected wave odd encoder three.

The ripple electronic switch of multiple ejected wave odd encoder one is tested respectively with avometer positive pole or oscillograph positive signal input,The ripple electronic switch of multiple ejected wave odd encoder two,The power end of the ripple electronic switch of multiple ejected wave odd encoder three is connected after having operating voltage,The ripple electronic switch of multiple ejected wave odd encoder one is tested respectively with avometer positive pole or oscillograph positive signal input,The ripple electronic switch of multiple ejected wave odd encoder two,The control end and output end of the ripple electronic switch of multiple ejected wave odd encoder three,The ripple electronic switch of multiple ejected wave odd encoder one,The ripple electronic switch of multiple ejected wave odd encoder two,When the control end of the ripple electronic switch of multiple ejected wave odd encoder three is high potential,The ripple electronic switch of multiple ejected wave odd encoder one,The ripple electronic switch of multiple ejected wave odd encoder two,The output end of the ripple electronic switch of multiple ejected wave odd encoder three has voltage output,The ripple electronic switch of multiple ejected wave odd encoder one,The ripple electronic switch of multiple ejected wave odd encoder two,When the control end of the ripple electronic switch of multiple ejected wave odd encoder three is low potential,The ripple electronic switch of multiple ejected wave odd encoder one,The ripple electronic switch of multiple ejected wave odd encoder two,The output end of the ripple electronic switch of multiple ejected wave odd encoder three whether there is pressure output.

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

（6）, to the multiple coded electronic circuit of one ripple of ejected wave odd encoder one, the multiple coded electronic circuit of one ripple of ejected wave odd encoder two, the multiple coded electronic circuit of two ripple of ejected wave odd encoder five, the multiple coded electronic circuit of two ripple of ejected wave odd encoder six, the multiple coded electronic circuit of three ripple of ejected wave odd encoder three, the multiple coded electronic circuit of three ripple of ejected wave odd encoder four is checked.

Tested to the multiple coded electronic circuit of one ripple of ejected wave odd encoder one with avometer positive pole or oscillograph positive signal input,The multiple coded electronic circuit of one ripple of ejected wave odd encoder two,The multiple coded electronic circuit of two ripple of ejected wave odd encoder five,The multiple coded electronic circuit of two ripple of ejected wave odd encoder six,The multiple coded electronic circuit of three ripple of ejected wave odd encoder three,The power end of the multiple coded electronic circuit of three ripple of ejected wave odd encoder four is connected after having operating voltage,It is input into the multiple coded electronic circuit of one ripple of ejected wave odd encoder one with oscillograph positive signal,The multiple coded electronic circuit of one ripple of ejected wave odd encoder two,The multiple coded electronic circuit of two ripple of ejected wave odd encoder five,The multiple coded electronic circuit of two ripple of ejected wave odd encoder six,The multiple coded electronic circuit of three ripple of ejected wave odd encoder three,The output end of the multiple coded electronic circuit of three ripple of ejected wave odd encoder four,It is normal that its encoded signal is arrived into test；If can't detect, should check whether that welding makes a mistake or component wear.

（7）, to the ripple oscillating circuit of multiple ejected wave odd encoder one switch, the ripple oscillating circuit of multiple ejected wave odd encoder two switch, the ripple oscillating circuit of multiple ejected wave odd encoder three switch inspection.

The ripple oscillating circuit of multiple ejected wave odd encoder one is tested respectively with avometer positive pole or oscillograph positive signal input to switch, the ripple oscillating circuit of multiple ejected wave odd encoder two is switched, two output ends of the ripple oscillating circuit of multiple ejected wave odd encoder three switch, the ripple oscillating circuit of multiple ejected wave odd encoder one is switched, the ripple oscillating circuit of multiple ejected wave odd encoder two is switched, to be started working after the ripple oscillating circuit switch connection power supply of multiple ejected wave odd encoder three, be vibrated；The ripple oscillating circuit of multiple ejected wave odd encoder one is tested respectively with avometer positive pole or oscillograph positive signal input to switch, the ripple oscillating circuit of multiple ejected wave odd encoder two is switched, and two output ends of the ripple oscillating circuit of multiple ejected wave odd encoder three switch will respectively export height or two different electric potential signals high low each other each other；If can't detect, should check whether that element insertion makes a mistake with welding.

（8）, to multiple ejected wave odd encoder one ripple, one yard of electronic switch, multiple ejected wave odd encoder one ripple, two yards of electronic switches, multiple ejected wave odd encoder two ripples, five yards of electronic switches, multiple ejected wave odd encoder two ripples, six yards of electronic switches, the ripple trigram electronic switch of multiple ejected wave odd encoder three, three ripples, the four yards of inspections of electronic switch of multiple ejected wave odd encoder.

Multiple ejected wave odd encoder one ripple, one yard of electronic switch is tested respectively with avometer positive pole or oscillograph positive signal input,Multiple ejected wave odd encoder one ripple, two yards of electronic switches,Multiple ejected wave odd encoder two ripples, five yards of electronic switches,Multiple ejected wave odd encoder two ripples, six yards of electronic switches,The ripple trigram electronic switch of multiple ejected wave odd encoder three,The power end of multiple ejected wave odd encoder three ripples, four yards of electronic switches is connected after having operating voltage,Multiple ejected wave odd encoder one ripple, one yard of electronic switch is tested respectively with avometer positive pole or oscillograph positive signal input,Multiple ejected wave odd encoder one ripple, two yards of electronic switches,Multiple ejected wave odd encoder two ripples, five yards of electronic switches,Multiple ejected wave odd encoder two ripples, six yards of electronic switches,The ripple trigram electronic switch of multiple ejected wave odd encoder three,The control end and output end of multiple ejected wave odd encoder three ripples, four yards of electronic switches,Multiple ejected wave odd encoder one ripple, one yard of electronic switch,Multiple ejected wave odd encoder one ripple, two yards of electronic switches,Multiple ejected wave odd encoder two ripples, five yards of electronic switches,Multiple ejected wave odd encoder two ripples, six yards of electronic switches,The ripple trigram electronic switch of multiple ejected wave odd encoder three,When three ripple of multiple ejected wave odd encoder, four yards of control ends of electronic switch are high potential,Multiple ejected wave odd encoder one ripple, one yard of electronic switch,Multiple ejected wave odd encoder one ripple, two yards of electronic switches,Multiple ejected wave odd encoder two ripples, five yards of electronic switches,Multiple ejected wave odd encoder two ripples, six yards of electronic switches,The ripple trigram electronic switch of multiple ejected wave odd encoder three,The output end of the four yards of electronic switches of ripple of multiple ejected wave odd encoder three has voltage output,Multiple ejected wave odd encoder one ripple, one yard of electronic switch,Multiple ejected wave odd encoder one ripple, two yards of electronic switches,Multiple ejected wave odd encoder two ripples, five yards of electronic switches,Multiple ejected wave odd encoder two ripples, six yards of electronic switches,The ripple trigram electronic switch of multiple ejected wave odd encoder three,When three ripple of multiple ejected wave odd encoder, four yards of control ends of electronic switch are low potential,Multiple ejected wave odd encoder one ripple, one yard of electronic switch,Multiple ejected wave odd encoder one ripple, two yards of electronic switches,Multiple ejected wave odd encoder two ripples, five yards of electronic switches,Multiple ejected wave odd encoder two ripples, six yards of electronic switches,The ripple trigram electronic switch of multiple ejected wave odd encoder three,The output end of the four yards of electronic switches of ripple of multiple ejected wave odd encoder three whether there is pressure output.

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

（9）, to multiple ejected wave odd encoder one ripple, one yard of coding output circuit, multiple ejected wave odd encoder one ripple, two yards of coding output circuits, multiple ejected wave odd encoder two ripples, five yards of coding output circuits, multiple ejected wave odd encoder two ripples, six yards of coding output circuits, the three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three, the ripple four code encoding output circuit of multiple ejected wave odd encoder three is checked.

Tested to multiple ejected wave odd encoder one ripple, one yard of coding output circuit with avometer positive pole or oscillograph positive signal input,Multiple ejected wave odd encoder one ripple, two yards of coding output circuits,Multiple ejected wave odd encoder two ripples, five yards of coding output circuits,Multiple ejected wave odd encoder two ripples, six yards of coding output circuits,The three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three,The power end of the ripple four code encoding output circuit of multiple ejected wave odd encoder three is connected after having operating voltage,It is input into multiple ejected wave odd encoder one ripple, one yard of coding output circuit with oscillograph positive signal,Multiple ejected wave odd encoder one ripple, two yards of coding output circuits,Multiple ejected wave odd encoder two ripples, five yards of coding output circuits,Multiple ejected wave odd encoder two ripples, six yards of coding output circuits,The three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three,The ripple four code encoding output circuit input of multiple ejected wave odd encoder three test to have encoded signal when,Its input will be tested its encoded signal to normal；If can't detect, should check whether that welding makes a mistake or component wear.

（10）, to the ripple dicode of multiple ejected wave odd encoder one encode OR gate output circuit, the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit, the ripple dicode of multiple ejected wave odd encoder three encode OR gate output circuit inspection

Tested to the ripple dicode of multiple ejected wave odd encoder one with avometer positive pole or oscillograph positive signal input and encode OR gate output circuit, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit, the power end of the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit is connected after having operating voltage, it is input into oscillograph positive signal and encodes OR gate output circuit in the ripple dicode of multiple ejected wave odd encoder one, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit, after normal its encoded signal is arrived in the input test of the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit, its output end is also by test to normal its encoded signal；If can't detect, should check whether that welding makes a mistake or component wear.

（11）, to the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two, the inspection of the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three.

Tested to the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one with avometer positive pole or oscillograph positive signal input, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two, the power end of the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three is connected after having operating voltage, it is input into the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one with oscillograph positive signal, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two, after normal its encoded signal is arrived in the test of the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder three, its output end is also by test to normal its transmission signal；If can't detect, should check whether that welding makes a mistake or component wear.

Claims (5)

1. the multiple ejected wave odd encoder remote control scheme of a kind of automobile, it is characterized in that：By multiple ejected wave odd encoder battery supply, multiple ejected wave odd encoder button switch, the multiple total electronic circuit switch element of ejected wave odd encoder；The multiple coding circuit of one ripple of ejected wave odd encoder two, the multiple coding circuit of two ripple of ejected wave odd encoder two, the multiple coding circuit of three ripple of ejected wave odd encoder two composition；

The multiple coding circuit of one ripple of ejected wave odd encoder two is by the ripple electronic switch of multiple ejected wave odd encoder one, the ripple oscillating circuit of multiple ejected wave odd encoder one switch；

Multiple ejected wave odd encoder one ripple, one yard of electronic switch, the multiple coded electronic circuit of one ripple of ejected wave odd encoder one, multiple ejected wave odd encoder one ripple, one yard of coding output circuit；

Multiple ejected wave odd encoder one ripple, two yards of electronic switches, the multiple coded electronic circuit of one ripple of ejected wave odd encoder two, multiple ejected wave odd encoder one ripple, two yards of coding output circuits；

The ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder one composition；

The multiple coding circuit of two ripple of ejected wave odd encoder two is by the ripple electronic switch of multiple ejected wave odd encoder two, the ripple oscillating circuit of multiple ejected wave odd encoder two switch；

Multiple ejected wave odd encoder two ripples, five yards of electronic switches, the multiple coded electronic circuit of two ripple of ejected wave odd encoder five, multiple ejected wave odd encoder two ripples, five yards of coding output circuits；

Multiple ejected wave odd encoder two ripples, six yards of electronic switches, the multiple coded electronic circuit of two ripple of ejected wave odd encoder six, multiple ejected wave odd encoder two ripples, six yards of coding output circuits；

The ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two composition；

The multiple coding circuit of three ripple of ejected wave odd encoder two is by the ripple electronic switch of multiple ejected wave odd encoder three, the ripple oscillating circuit of multiple ejected wave odd encoder three switch；

The ripple trigram electronic switch of multiple ejected wave odd encoder three, the multiple coded electronic circuit of three ripple of ejected wave odd encoder three, the three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three；

Multiple ejected wave odd encoder three ripples, four yards of electronic switches, the multiple coded electronic circuit of three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit of multiple ejected wave odd encoder three；

The ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three composition；

Because the multiple coding circuit of one ripple of ejected wave odd encoder two, the multiple coding circuit of two ripple of ejected wave odd encoder two, the multiple coding circuit of three ripple of ejected wave odd encoder two unitedly calls multiple ejected wave odd encoder A ripple B coding circuits again；

The ripple electronic switch of multiple ejected wave odd encoder one, the ripple electronic switch of multiple ejected wave odd encoder two, the ripple electronic switch of multiple ejected wave odd encoder three unitedly calls multiple ejected wave odd encoder A ripple electronic switches again；

The ripple oscillating circuit of multiple ejected wave odd encoder one is switched, and the ripple oscillating circuit of multiple ejected wave odd encoder two switch, the ripple oscillating circuit of multiple ejected wave odd encoder three switch unitedly calls multiple ejected wave odd encoder A ripples oscillating circuit to switch again；

Multiple ejected wave odd encoder one ripple, one yard of electronic switch, multiple ejected wave odd encoder one ripple, two yards of electronic switches, multiple ejected wave odd encoder two ripples, five yards of electronic switches, multiple ejected wave odd encoder two ripples, six yards of electronic switches, the ripple trigram electronic switch of multiple ejected wave odd encoder three, multiple ejected wave odd encoder three ripples, four yards of electronic switches, unitedly call multiple B yards of electronic switch of ejected wave odd encoder A ripples again；

The multiple coded electronic circuit of one ripple of ejected wave odd encoder one, the multiple coded electronic circuit of one ripple of ejected wave odd encoder two, the multiple coded electronic circuit of two ripple of ejected wave odd encoder five, the multiple coded electronic circuit of two ripple of ejected wave odd encoder six, the multiple coded electronic circuit of three ripple of ejected wave odd encoder three, the multiple coded electronic circuit of three ripple of ejected wave odd encoder four, unitedly calls multiple ejected wave odd encoder A ripples B coded electronic circuits again；

Multiple ejected wave odd encoder one ripple, one yard of coding output circuit；Multiple ejected wave odd encoder one ripple, two yards of coding output circuits；Multiple ejected wave odd encoder two ripples, five yards of coding output circuits；Multiple ejected wave odd encoder two ripples, six yards of coding output circuits；The three-code encoded output circuit of the multiple ripple of ejected wave odd encoder three；The ripple four code encoding output circuit of multiple ejected wave odd encoder three；Multiple B yards of coding output circuit of ejected wave odd encoder A ripples is unitedly called again；

The ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit, and the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit unitedly calls multiple ejected wave odd encoder A ripples dicode coding OR gate output circuit again；

The ripple dicode launching electronics circuit of multiple ejected wave odd encoder one, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder two, the ripple dicode launching electronics circuit of multiple ejected wave odd encoder three unitedly calls multiple ejected wave odd encoder A ripples dicode launching electronics circuit again；

So the multiple coding circuit of one ripple of ejected wave odd encoder two, the multiple coding circuit of two ripple of ejected wave odd encoder two, the multiple coding circuit of three ripple of ejected wave odd encoder two；I.e. multiple ejected wave odd encoder A ripple B coding circuits, by multiple ejected wave odd encoder A ripple electronic switches, multiple ejected wave odd encoder A ripples oscillating circuit switch, multiple B yards of electronic switch of ejected wave odd encoder A ripples, multiple ejected wave odd encoder A ripples B coded electronic circuits, multiple ejected wave odd encoder A ripples B coded electronic circuits, multiple B yards of coding output circuit of ejected wave odd encoder A ripples；Multiple ejected wave odd encoder A ripples dicode encodes OR gate output circuit, multiple ejected wave odd encoder A ripple dicode launching electronics circuit composition；

The multiple total electronic circuit switch element of ejected wave odd encoder is by the total electronic impulse circuit of multiple ejected wave odd encoder, the multiple total decimal counting circuit of ejected wave odd encoder, the multiple total clear circuit composition of ejected wave odd encoder；

The multiple total electronic impulse circuit pulse output end of ejected wave odd encoder is connected with the total decimal counting circuit counting input end of multiple ejected wave odd encoder,The Q1 that the total decimal counting circuit of three six yards of ripples is counted,Q2,Q3,Three pulse output ends represent the total electronic circuit switch element 1 of multiple ejected wave odd encoder respectively,2,3 output ends of pulse,The multiple total electronic circuit switch element 1 of ejected wave odd encoder,2,3 output end Q1 of pulse,Q2,Q3,Respectively with the ripple electronic switch controling end of multiple ejected wave odd encoder one,The ripple electronic switch controling end of multiple ejected wave odd encoder two,The ripple electronic switch controling end of multiple ejected wave odd encoder three is connected,The pulse output end Q3 that the multiple total decimal counting circuit of ejected wave odd encoder is counted also is connected with the total clear circuit signal input part of multiple ejected wave odd encoder,The multiple total clear circuit signal output part of ejected wave odd encoder respectively with the total electronic impulse circuit reset signal input of multiple ejected wave odd encoder,The multiple total decimal counting circuit reset signal input of ejected wave odd encoder is connected；

Multiple ejected wave odd encoder button switch one end connects multiple ejected wave odd encoder battery supply positive pole, the multiple ejected wave odd encoder button switch other end and the total electronic circuit switch element power end of multiple ejected wave odd encoder, the ripple electronic switch power end of multiple ejected wave odd encoder one, the ripple electronic switch power end of multiple ejected wave odd encoder two, the connection of the ripple electronic switch power end of multiple ejected wave odd encoder three；

The multiple total electronic circuit switch element ground wire of ejected wave odd encoder, the ripple electronic switch ground wire of multiple ejected wave odd encoder one, the ripple electronic switch ground wire of multiple ejected wave odd encoder two, the ripple electronic switch ground wire of multiple ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire；

Three pulse output end Q1 of the multiple total electronic circuit switch element of ejected wave odd encoder, Q2, Q3, respectively with the ripple electronic switch controling end of multiple ejected wave odd encoder one, the ripple electronic switch controling end of multiple ejected wave odd encoder two, the ripple electronic switch controling end of multiple ejected wave odd encoder three is connected；

The ripple electronic switch output end of multiple ejected wave odd encoder one respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of electronic switch power end, one ripple of multiple ejected wave odd encoder, two yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder one is connected；

The ripple oscillating circuit of multiple ejected wave odd encoder one switchs ground terminal, multiple ejected wave odd encoder one ripple, one yard of electronic switch ground terminal, multiple ejected wave odd encoder one ripple, two yards of electronic switch ground terminals, the ripple dicode of multiple ejected wave odd encoder one encodes OR gate output circuit ground terminal, and the ripple dicode launching electronics circuit ground end of multiple ejected wave odd encoder one is connected with multiple ejected wave odd encoder battery supply ground wire；

The ripple oscillating circuit of multiple ejected wave odd encoder one switch two output ends respectively with multiple ejected wave odd encoder one ripple, one yard of electronic switch controling end, multiple ejected wave odd encoder one ripple, two yards of electronic switch controling ends are connected；

One ripple of multiple ejected wave odd encoder, one yard of electronic switch output end respectively with the coded electronic circuit power end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit power end is connected；

The coded electronic circuit ground end of multiple one ripple of ejected wave odd encoder one, one ripple of multiple ejected wave odd encoder, one yard of coding output circuit ground terminal is connected with multiple ejected wave odd encoder battery supply ground wire respectively；

One yard of coding output circuit input of the multiple coded electronic circuit output end of one ripple of ejected wave odd encoder one and one ripple of multiple ejected wave odd encoder is connected, and one ripple of multiple ejected wave odd encoder, one yard of coding output circuit output end is connected with the input of the ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit one；

One ripple of multiple ejected wave odd encoder, two yards of electronic switch output ends respectively with the coded electronic circuit power end of multiple one ripple of ejected wave odd encoder two, the connection of one ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends；

The coded electronic circuit ground end of multiple one ripple of ejected wave odd encoder two, one ripple of multiple ejected wave odd encoder, two yards of coding output circuit ground terminals are connected with multiple ejected wave odd encoder battery supply ground wire respectively；

Two yards of coding output circuit inputs of the multiple coded electronic circuit output end of one ripple of ejected wave odd encoder two and one ripple of multiple ejected wave odd encoder are connected, and one ripple of multiple ejected wave odd encoder, two yards of coding output circuit output ends are connected with the input of the ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit one；The ripple dicode of multiple ejected wave odd encoder one coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder one；

The ripple electronic switch output end of multiple ejected wave odd encoder two respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder two, two ripple of multiple ejected wave odd encoder, five yards of electronic switch power ends, two ripple of multiple ejected wave odd encoder, six yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder two is connected；

The ripple oscillating circuit of multiple ejected wave odd encoder two switchs ground terminal, multiple ejected wave odd encoder two ripples, five yards of electronic switch ground terminals, multiple ejected wave odd encoder two ripples, six yards of electronic switch ground terminals, the ripple dicode of multiple ejected wave odd encoder two encodes OR gate output circuit ground terminal, and the ripple dicode launching electronics circuit ground end of multiple ejected wave odd encoder two is connected with multiple ejected wave odd encoder battery supply ground wire；

The ripple oscillating circuit of multiple ejected wave odd encoder two switch two output ends respectively with multiple ejected wave odd encoder two ripples, five yards of electronic switch controling ends, multiple ejected wave odd encoder two ripples, six yards of electronic switch controling ends are connected；

Two ripple of multiple ejected wave odd encoder, five yards of electronic switch output ends respectively with the coded electronic circuit power end of multiple two ripple of ejected wave odd encoder five, multiple two ripple of ejected wave odd encoder five coding output circuit power end is connected；

The coded electronic circuit ground end of multiple two ripple of ejected wave odd encoder five, the multiple coding of two ripple of ejected wave odd encoder five output circuit ground terminal is connected with multiple ejected wave odd encoder battery supply ground wire respectively；

The multiple coded electronic circuit output end of two ripple of ejected wave odd encoder five is connected with multiple two ripple of ejected wave odd encoder five coding output circuit input, and the multiple coding output circuit output end of two ripple of ejected wave odd encoder five is connected with the input of the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit one；

Two ripple of multiple ejected wave odd encoder, six yards of electronic switch output ends respectively with the coded electronic circuit power end of multiple two ripple of ejected wave odd encoder six, the connection of two ripple of multiple ejected wave odd encoder, two yards of coding output circuit power ends；

The coded electronic circuit ground end of multiple two ripple of ejected wave odd encoder six, the multiple coding of two ripple of ejected wave odd encoder six output circuit ground terminal is connected with multiple ejected wave odd encoder battery supply ground wire respectively；

The multiple coded electronic circuit output end of two ripple of ejected wave odd encoder six is connected with multiple two ripple of ejected wave odd encoder six coding output circuit input, and the multiple coding output circuit output end of two ripple of ejected wave odd encoder six is connected with the input of the ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit one；The ripple dicode of multiple ejected wave odd encoder two coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder two；

The ripple electronic switch output end of multiple ejected wave odd encoder three respectively with the ripple oscillating circuit Switching Power Supply end of multiple ejected wave odd encoder three, the ripple trigram electronic switch power end of multiple ejected wave odd encoder three, three ripple of multiple ejected wave odd encoder, four yards of electronic switch power ends, the ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit power end, and the ripple dicode launching electronics circuit power end of multiple ejected wave odd encoder three is connected；

The ripple oscillating circuit of multiple ejected wave odd encoder three switchs ground terminal, the ripple trigram electronic switch ground terminal of multiple ejected wave odd encoder three, multiple ejected wave odd encoder three ripples, four yards of electronic switch ground terminals, the ripple dicode of multiple ejected wave odd encoder three encodes OR gate output circuit ground terminal, and the ripple dicode launching electronics circuit ground end of multiple ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire；

The ripple oscillating circuit of multiple ejected wave odd encoder three switch two output ends respectively with the ripple trigram electronic switch controling end of multiple ejected wave odd encoder three, multiple ejected wave odd encoder three ripples, four yards of electronic switch controling ends are connected；

The ripple trigram electronic switch output end of multiple ejected wave odd encoder three respectively with the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit power end of the ripple of ejected wave odd encoder three is connected；

The coded electronic circuit ground end of multiple three ripple of ejected wave odd encoder three, the multiple three-code encoded output circuit ground terminal of the ripple of ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire respectively；

The multiple coded electronic circuit output end of three ripple of ejected wave odd encoder three is connected with the multiple three-code encoded output circuit input of the ripple of ejected wave odd encoder three, and the multiple three-code encoded output circuit output end of the ripple of ejected wave odd encoder three is connected with the input of the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit one；

Three ripple of multiple ejected wave odd encoder, four yards of electronic switch output ends respectively with the coded electronic circuit power end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit power end of multiple ejected wave odd encoder three is connected；

The coded electronic circuit ground end of multiple three ripple of ejected wave odd encoder four, the ripple four code encoding output circuit ground terminal of multiple ejected wave odd encoder three is connected with multiple ejected wave odd encoder battery supply ground wire respectively；

Three ripple of multiple ejected wave odd encoder, four yards of code coded electronic circuit output ends are connected with the ripple four code encoding output circuit input of multiple ejected wave odd encoder three, and the ripple four code encoding output circuit output end of multiple ejected wave odd encoder three is connected with the input of the ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit one；

The ripple dicode of multiple ejected wave odd encoder three coding OR gate output circuit output end is connected with the ripple dicode launching electronics circuit input end of multiple ejected wave odd encoder three.

2. the multiple ejected wave odd encoder remote control scheme of a kind of automobile according to claim 1, it is characterized in that：A kind of multiple ejected wave of the multiple ejected wave odd encoder remote control scheme of automobile is combined for the first transmitted wave with the second transmitted wave and the 3rd transmitted wave.

3. the multiple ejected wave odd encoder remote control scheme of a kind of automobile according to claim 1, it is characterized in that：A kind of odd encoder of the multiple ejected wave odd encoder remote control scheme of automobile is a coding and a coding and a coding and a coding and a coding and No. two combinations of coding.

4. the multiple ejected wave odd encoder remote control scheme of a kind of automobile according to claim 1, it is characterized in that：A kind of odd encoder of the multiple ejected wave odd encoder remote control scheme of automobile is No. two codings and a coding and No. two codings and No. two codings and a coding and No. two combinations of coding.

5. the multiple ejected wave odd encoder remote control scheme of a kind of automobile according to claim 1, it is characterized in that：A kind of odd encoder of the multiple ejected wave odd encoder remote control scheme of automobile is No. two codings and a coding and No. two codings and a coding and a coding and No. two combinations of coding.