CN106935016A - A kind of digital multiple ejected wave remote-transmitter mode - Google Patents

Abstract

A kind of digital multiple ejected wave remote-transmitter mode belongs to electronic technology field, by the battery supply of digital multiple ejected wave, the button switch of digital multiple ejected wave, total electronic circuit switch element of digital multiple ejected wave；The coding circuit of one ripple two of digital multiple ejected wave, the coding circuit of two ripple one of digital multiple ejected wave, the coding circuit of three ripple two composition of digital multiple ejected wave；A kind of transmitted wave of digital multiple ejected wave remote-transmitter mode is multiple ejected wave combining form；The form that it is encoded to odd encoder flexible combination has the anti-ability of cracking very high, optimum efficiency can be played, significantly improve and catch strong with radio scanner criminal offence resistivity to use decoder, grabbing a yard device, can be in a launch-box, it is easy to use, good operation, easy production easy to install is stable and reliable for performance, be adapted in, small enterprise production, in market competition have very big competitiveness.

Description

A kind of digital multiple ejected wave remote-transmitter mode

Technical field

Belong to electronic technology field.

Background technology

Remote control coding lift-off technology, one is a very wide range of electronic technology of kind of application, in the life of the masses quite variedly Occur, it is well known that anti-copying, security classification anti-tampering, high are that the important technology for representing that remote control coding lift-off technology is good and bad refers to Mark.From in terms of present technical merit, such as motor central lock input remote control, there is and make not safe enough, some illegal point Son one kind " grabbing a yard device " is also the special electrical devices of " reproducer ", when owner is when remote controlled locking is used, this electronic instrument The radiofrequency signal and code signal of remote control can be captured, after treating that owner leaves, lawless person will be trusted courageously with the instrument Copy code signal, carry out unlocking theft, the major safety risks of unnecessary economic loss are caused to car owner；List is just Automobile product one and enormous amount, there is great market.

Therefore, how anti-copying, how could realize improving use level of confidentiality degree, reduce use cost, be adapted to miniature enterprise The product of industry production, also becomes the key subjects of this enterprise scientific research personnel.

Prevent lawless person from will be trusted with the instrument and audaciously copy code signal, carry out unlocking theft, to reach It is a kind of serious challenge, it is necessary to break through traditional mode of thinking completely to above-mentioned purpose, using being a kind of complete great wound Newly, therefore, main guiding theory of the invention is, many Baudot code launch parties of a series of various flexible combination are developed Case, the various change selections of increase of its transmitting carrier wave and coding, improves secret and safe.

In order to matched, it is also necessary to there is many Baudot code reception devices of corresponding various forms of combinations supporting with it； The various forms of many Baudot code reception devices of device are supporting with it, due to the combination that the carrier wave that it is received is multiple carrier waves, its volume Code is combined for various codings under the control of a timing sequence and temporal regularity, improves security, makes some illegal point Son copies code signal with the special electrical devices of " reproducer ", carries out unlocking theft purpose and is difficult to.

A kind of digital multiple ejected wave remote-transmitter mode coordinates with the digital multiple ejected wave remote control reception mode of one kind, has The anti-ability of cracking very high.

The content of the invention

One is that its transmitted wave is the combination of a transmitted wave and two transmitted waves and three transmitted waves, two is when it is encoded or be one Number coding with No. one coding with No. one coding with No. one coding with No. one coding combination or for No. one coding with No. one coding with No. two coding with No. one coding with a coded combination, or for No. two coding with No. one coding with No. two coding with No. one coding with A number coded combination, or for No. two coding with No. one coding with No. two coding with No. two coding with No. one coding etc. various changes The combination of change, can play optimum efficiency.So as to abundant transmitting coding techniques.Due to the digital multiple ejected wave remote control hair of this one kind The mode of penetrating has the change of a variety of flexible forms, and each version all has great importance, and is particularly suitable for medium and small enterprise Industry is produced, and operate has very big competitiveness well in market competition.

1st, a kind of digital multiple ejected wave remote-transmitter mode by digital multiple ejected wave battery supply, it is digital multiple The button switch of ejected wave, total electronic circuit switch element of digital multiple ejected wave；One ripple two of digital multiple ejected wave is encoded Circuit, the coding circuit of two ripple one of digital multiple ejected wave, the coding circuit of three ripple two of digital multiple ejected wave.

The coding circuit of one ripple two of digital multiple ejected wave by digital multiple ejected wave a ripple electronic switch, it is digital many The one ripple oscillating circuit switch of transmitted wave.

One yard of electronic switch of a ripple of digital multiple ejected wave, one yard of coded electronic electricity of a ripple of digital multiple ejected wave Road, one yard of coding output circuit of a ripple of digital multiple ejected wave.

Two yards of electronic switches of a ripple of digital multiple ejected wave, two yards of coded electronic electricity of a ripple of digital multiple ejected wave Road, two yards of coding output circuits of a ripple of digital multiple ejected wave.

The one ripple dicode coding OR gate output circuit of digital multiple ejected wave, the ripple dicode transmitting of digital multiple ejected wave Electronic circuit.

The coding circuit of two ripple one of digital multiple ejected wave by digital multiple ejected wave two ripples, five yards of electronic switches, numeral Two ripples, five yards of coded electronic circuits of the multiple ejected wave of formula, two ripples, five yards of coding output circuits of digital multiple ejected wave are digital Two ripples, five yards of launching electronics circuits of multiple ejected wave.

The coding circuit circuit of three ripple two of digital multiple ejected wave by digital multiple ejected wave three ripple electronic switches, numeral The three ripple oscillating circuits switch of the multiple ejected wave of formula.

Three ripple trigram electronic switches of digital multiple ejected wave, the three-code encoded electronics electricity of three ripples of digital multiple ejected wave Road, the three-code encoded output circuit of three ripples of digital multiple ejected wave.

Three ripples, four yards of electronic switches of digital multiple ejected wave, the three ripple four code encoding electronics electricity of digital multiple ejected wave Road, three ripple four code encoding output circuits of digital multiple ejected wave.

The three ripple dicodes coding OR gate output circuit of digital multiple ejected wave, the three ripple dicodes transmitting of digital multiple ejected wave Electronic circuit is constituted.

Total electronic circuit switch element of digital multiple ejected wave is counted by total electronic impulse circuit of digital multiple ejected wave Total decimal counting circuit of the multiple ejected wave of word formula, total clear circuit composition of digital multiple ejected wave.

Total electronic impulse circuit pulse output end of digital multiple ejected wave and total decade meter of digital multiple ejected wave Number circuit count input is connected, Q1, Q2, Q3, three pulse output ends that the total decimal counting circuit of three six yards of ripples is counted 1,2,3 output ends of pulse of total electronic circuit switch element of digital multiple ejected wave, digital multiple ejected wave are represented respectively 1,2,3 output ends Q1, Q2 of pulse of total electronic circuit switch element, Q3, respectively with a ripple of digital multiple ejected wave electricity Sub switch control end, two ripple electronic switch controling ends of digital multiple ejected wave, three ripple electronic switches of digital multiple ejected wave Control end is connected, and the pulse output end Q3 that total decimal counting circuit of digital multiple ejected wave is counted is also multiple with digital Total clear circuit signal input part connection of ejected wave, total clear circuit signal output part of digital multiple ejected wave respectively with numeral Total electronic impulse circuit reset signal input of the multiple ejected wave of formula, total decimal counting circuit of digital multiple ejected wave resets Signal input part is connected.

Button switch one end of digital multiple ejected wave connects the battery supply positive pole of digital multiple ejected wave, digital Total electronic circuit switch element power end of the button switch other end of multiple ejected wave and digital multiple ejected wave, it is digital multiple One ripple electronic switch power end of ejected wave, two ripple electronic switch power ends of digital multiple ejected wave, digital multiple ejected wave Three ripple electronic switch power ends connect.

Total electronic circuit switch element ground wire of digital multiple ejected wave, the ripple electronic switch ground of digital multiple ejected wave Line, two ripple electronic switch ground wires of digital multiple ejected wave, three ripple electronic switch ground wires of digital multiple ejected wave with it is digital The battery supply ground wire of multiple ejected wave is connected.

Three pulse output end Q1 of total electronic circuit switch element of digital multiple ejected wave, Q2, Q3, respectively with numeral One ripple electronic switch controling end of the multiple ejected wave of formula, two ripple electronic switch controling ends of digital multiple ejected wave, it is digital multiple Three ripple electronic switch controling ends of ejected wave are connected.

One ripple electronic switch output end of digital multiple ejected wave respectively with a ripple oscillating circuit of digital multiple ejected wave Switching Power Supply end, one yard of electronic switch power end of a ripple of digital multiple ejected wave, two yards of electricity of a ripple of digital multiple ejected wave Sub switch power end, the ripple dicode coding OR gate output circuit power end of digital multiple ejected wave, digital multiple ejected wave One ripple dicode launching electronics circuit power end is connected.

The one ripple oscillating circuit switch ground terminal of digital multiple ejected wave, one yard of electronic cutting of a ripple of digital multiple ejected wave Close ground terminal, two yards of electronic switch ground terminals of a ripple of digital multiple ejected wave, the ripple dicode coding of digital multiple ejected wave OR gate output circuit ground terminal, a ripple dicode launching electronics circuit ground end and the digital multiple ejected wave of digital multiple ejected wave Battery supply ground wire be connected.

One ripple oscillating circuit of digital multiple ejected wave switch two output ends respectively with a ripple of digital multiple ejected wave One yard of electronic switch controling end, two yards of electronic switch controling ends of a ripple of digital multiple ejected wave are connected.

One yard of electronic switch output end of a ripple of digital multiple ejected wave respectively with one yard of a ripple of digital multiple ejected wave Coded electronic circuit power end, one yard of coding output circuit power end of a ripple of digital multiple ejected wave is connected.

One yard of coded electronic circuit ground end of a ripple of digital multiple ejected wave, one yard of volume of a ripple of digital multiple ejected wave Battery supply ground wire of the code output circuit ground terminal respectively with digital multiple ejected wave is connected.

One yard of coded electronic circuit output end of a ripple of digital multiple ejected wave and one yard of a ripple of digital multiple ejected wave Coding output circuit input is connected, and one yard of coding output circuit output end of a ripple of digital multiple ejected wave is more with digital The input of one ripple dicode coding OR gate output circuit one of transmitted wave is connected.

Two yards of electronic switch output ends of a ripple of digital multiple ejected wave respectively with two yards of a ripple of digital multiple ejected wave Coded electronic circuit power end, two yards of coding output circuit power end connections of a ripple of digital multiple ejected wave.

Two yards of coded electronic circuit ground ends of a ripple of digital multiple ejected wave, two yards of volumes of a ripple of digital multiple ejected wave Battery supply ground wire of the code output circuit ground terminal respectively with digital multiple ejected wave is connected.

Two yards of coded electronic circuit output ends of a ripple of digital multiple ejected wave and two yards of a ripple of digital multiple ejected wave Coding output circuit input is connected, and two yards of coding output circuit output ends of a ripple of digital multiple ejected wave are more with digital The input of one ripple dicode coding OR gate output circuit one of transmitted wave is connected；Digital multiple ejected wave a ripple dicode coding or Gate output circuit output end is connected with a ripple dicode launching electronics circuit input end of digital multiple ejected wave.

Two ripples, five yards of electronic switch output ends of digital multiple ejected wave respectively with five yards of two ripple of digital multiple ejected wave Coded electronic circuit power end, two ripples, five yards of coding output circuit power ends of digital multiple ejected wave, digital multiple ejected wave Two ripples, five yards of launching electronics circuit power ends be connected.

Two ripples, five yards of coded electronic circuit ground ends of digital multiple ejected wave, two ripples, five yards of volumes of digital multiple ejected wave Code output circuit ground terminal, two ripples, five yards of launching electronics circuit ground ends of digital multiple ejected wave respectively with digital multi-emitting The battery supply ground wire of ripple is connected.

Two ripples, five yards of coded electronic circuit output ends of digital multiple ejected wave and five yards of two ripple of digital multiple ejected wave Coding output circuit input is connected, and two ripples, five yards of coding output circuit output ends of digital multiple ejected wave are more with digital Two ripples, five yards of launching electronics circuit input ends of transmitted wave are connected.

Three ripple electronic switch output ends of digital multiple ejected wave respectively with three ripple oscillating circuits of digital multiple ejected wave Switching Power Supply end, three ripple trigram electronic switch power ends of digital multiple ejected wave, three ripples, four yards of electricity of digital multiple ejected wave Sub switch power end, the three ripple dicodes coding OR gate output circuit power end of digital multiple ejected wave, digital multiple ejected wave Three ripple dicode launching electronics circuit power ends are connected.

The three ripple oscillating circuits switch ground terminal of digital multiple ejected wave, three ripple trigram electronic cuttings of digital multiple ejected wave Close ground terminal, three ripples, four yards of electronic switch ground terminals of digital multiple ejected wave, the three ripple dicodes coding of digital multiple ejected wave OR gate output circuit ground terminal, three ripple dicode launching electronics circuit ground ends and the digital multiple ejected wave of digital multiple ejected wave Battery supply ground wire be connected.

Three ripple oscillating circuits of digital multiple ejected wave switch two output ends respectively with three ripples of digital multiple ejected wave Trigram electronic switch controling end, three ripples, four yards of electronic switch controling ends of digital multiple ejected wave are connected.

Three ripple trigram electronic switch output ends of digital multiple ejected wave respectively with three ripple trigrams of digital multiple ejected wave Coded electronic circuit power end, the three-code encoded output circuit power end of three ripples of digital multiple ejected wave is connected.

The three-code encoded electronic circuit ground terminal of three ripples of digital multiple ejected wave, three ripple trigrams of digital multiple ejected wave are compiled Battery supply ground wire of the code output circuit ground terminal respectively with digital multiple ejected wave is connected.

The three-code encoded electronic circuit output end of three ripples of digital multiple ejected wave and three ripple trigrams of digital multiple ejected wave Coding output circuit input is connected, and the three-code encoded output circuit output end of three ripples of digital multiple ejected wave is more with digital The input connection of three ripple dicodes coding OR gate output circuit one of transmitted wave.

Three ripples, four yards of electronic switch output ends of digital multiple ejected wave respectively with four yards of three ripple of digital multiple ejected wave Coded electronic circuit power end, three ripple four code encoding output circuit power ends of digital multiple ejected wave are connected.

Three ripple four code encoding electronic circuit ground terminals of digital multiple ejected wave, three ripples, four yards of volumes of digital multiple ejected wave Battery supply ground wire of the code output circuit ground terminal respectively with digital multiple ejected wave is connected.

Three ripples, four yards of code coded electronic circuit output ends of digital multiple ejected wave and three ripples four of digital multiple ejected wave Code coding output circuit input be connected, three ripple four code encoding output circuit output ends of digital multiple ejected wave with it is digital The input of three ripple dicodes coding OR gate output circuit one of multiple ejected wave is connected.

The three ripple dicodes coding OR gate output circuit output end of digital multiple ejected wave and three ripples of digital multiple ejected wave Dicode launching electronics circuit input end is connected.

2nd, a kind of three transmitted waves of digital multiple ejected wave remote-transmitter mode are a transmitted wave and two transmitted waves and three hairs Ejected wave is combined.

3rd, the five of a kind of digital multiple ejected wave remote-transmitter mode are encoded to a coding with a coding and No. two volumes Code and a coding and a coded combination.

4th, the five of a kind of digital multiple ejected wave remote-transmitter mode are encoded to No. two codings with a coding and No. two volumes Code and a coding and a coded combination.

5th, the five of a kind of digital multiple ejected wave remote-transmitter mode are encoded to No. two codings with a coding and No. two volumes Code and No. two codings and a combination for coding.

Its operation principle is as follows：

Button switch one end of digital multiple ejected wave connects the battery supply positive pole of digital multiple ejected wave, digital multiple Total electronic circuit switch element power end of the button switch other end of ejected wave and digital multiple ejected wave, digital multiple ejected wave A ripple electronic switch power end, two ripple electronic switch power ends of digital multiple ejected wave, three ripples of digital multiple ejected wave Electronic switch power end connects.

Total electronic circuit switch element ground wire of digital multiple ejected wave, the ripple electronic switch ground of digital multiple ejected wave Line, two ripple electronic switch ground wires of digital multiple ejected wave, three ripple electronic switch ground wires of digital multiple ejected wave with it is digital The battery supply ground wire of multiple ejected wave is connected.

So when the button of button switch circuit of digital multiple ejected wave is pressed, total electronics of digital multiple ejected wave Contactor unit switches on power and proceeds by work；Total electronic circuit switch element of digital multiple ejected wave is by digital more Total electronic impulse circuit of transmitted wave, total decimal counting circuit of digital multiple ejected wave, digital multiple ejected wave it is total clear Zero circuit is constituted；Total electronic impulse circuit of digital multiple ejected wave switches on power and starts to vibrate output pulse signal, when first When individual pulse signal enters into total decimal counting circuit of digital multiple ejected wave, total electronic circuit of digital multiple ejected wave Switch element external three output ends Q1, Q2, Q3, i.e., Q1, Q of total decimal counting circuit counting of digital multiple ejected wave 2nd, tri- output ends of Q3, wherein Q1 is output as high potential, Q2, Q3, is output as low potential respectively.

Three pulse output end Q1 of total electronic circuit switch element of digital multiple ejected wave, Q2, Q3, respectively with numeral One ripple electronic switch controling end of the multiple ejected wave of formula, two ripple electronic switch controling ends of digital multiple ejected wave, it is digital multiple Three ripple electronic switch controling ends of ejected wave are connected.

The two ripple electronic switches control of the one ripple electronic switch controling end, digital multiple ejected wave of digital multiple ejected wave End, three ripple electronic switch controling ends of digital multiple ejected wave have voltage output for high potential will be opened；Digital multi-emitting One ripple electronic switch controling end of ripple, two ripple electronic switch controling ends of digital multiple ejected wave, the three of digital multiple ejected wave Ripple electronic switch controling end will be closed Non voltage output for low potential.

Q1 is to digital multi-emitting in three external output ends of total electronic circuit switch element of digital multiple ejected wave One ripple electronic switch controling end of ripple is output as high potential, and a ripple electronic switch of digital multiple ejected wave is opened into output electricity Pressure；Q2, Q3 in external another two output ends of total electronic circuit switch element of digital multiple ejected wave, respectively to digital many Two ripple electronic switch controling ends of transmitted wave, the three ripple electronic switch controling ends output low potential of digital multiple ejected wave, respectively Two ripple electronic switches of digital multiple ejected wave are closed with three ripple electronic switches of digital multiple ejected wave, their no-voltages are defeated Go out；The digital multiple ejected wave remote-transmitter mode of such a opens the hair of the coding circuit of a ripple two of digital multiple ejected wave The preparatory stage penetrated, the coding circuit of two ripple one of closing digital multiple ejected wave and digital multiple ejected wave are also started simultaneously The emission process of the coding circuit of three ripple two.

Two ripples, five yards of electronic switch controls of the digital multiple ejected wave of the coding circuit of two ripple one of digital multiple ejected wave It is low potential to hold, and will be closed Non voltage output；Two ripples, five yards of electronic switch output ends of digital multiple ejected wave respectively with number Two ripples, five yards of coded electronic circuit power ends of the multiple ejected wave of word formula, two ripples, five yards of coding output circuits of digital multiple ejected wave Power end, two ripples, five yards of launching electronics circuit power ends of digital multiple ejected wave are connected.

Two ripples, five yards of coded electronic circuit power ends of digital multiple ejected wave, two ripples, five yards of volumes of digital multiple ejected wave Code output circuit power end, two ripples, five yards of launching electronics circuit power end access failure power supplys of digital multiple ejected wave do not work, Two ripples, five yards of coded electronic circuits of digital multiple ejected wave do not carry out two ripples, five yards of encoded signals of digital multiple ejected wave Coding work；Two ripples five of the digital multiple ejected wave that two ripples, five yards of coded electronic circuit no-trumps of digital multiple ejected wave are finished Code encoded signal is exported to two ripples, five yards of coding output circuits of digital multiple ejected wave, five yards of two ripple of digital multiple ejected wave Coding two ripples, the five yards of encoded signals of output circuit without the digital multiple ejected wave finished pass to the two of digital multiple ejected wave Five yards of launching electronics circuit transmissions of ripple, two ripples, five yards of launching electronics circuit access failure power supplys of digital multiple ejected wave can not work Make, to two ripples, five yards of encoded signals of the digital multiple ejected wave of emission.

Similarly, the three ripple electronic switches output of the digital multiple ejected wave of the coding circuit of three ripple two of digital multiple ejected wave End respectively with three ripple oscillating circuit Switching Power Supply ends of digital multiple ejected wave, three ripple trigram electronic cuttings of digital multiple ejected wave Powered-down source, three ripples, four yards of electronic switch power ends of digital multiple ejected wave, the three ripple dicodes coding of digital multiple ejected wave OR gate output circuit power end, three ripple dicode launching electronics circuit power ends of digital multiple ejected wave are connected.

Three ripple electronic switch controling ends of digital multiple ejected wave are low-voltage, three ripple electronic cuttings of digital multiple ejected wave Output end Non voltage output is closed, three ripple electronic switching circuit output end Non voltage outputs of digital multiple ejected wave are digital more Three ripple trigram electronic switch power ends of transmitted wave, three ripples, four yards of electronic switch power ends of digital multiple ejected wave are digital The three ripple dicodes coding OR gate output circuit power end of multiple ejected wave, three ripple dicode launching electronics circuits of digital multiple ejected wave The equal access failure power supply of power end does not work；The three-code encoded electronic circuit power end of three ripples of digital multiple ejected wave is digital more The three-code encoded output circuit power end of three ripples of transmitted wave, three ripple four code encoding electronic circuit power supplys of digital multiple ejected wave Hold, three ripple four code encoding output circuit power ends of digital multiple ejected wave, also access failure power supply does not also work.

So the three-code encoded electronic circuit of three ripples of digital multiple ejected wave, three ripple four code encodings of digital multiple ejected wave Electronic circuit does not carry out coding work, also the three-code encoded electronic circuit encoded signal of three ripples without digital multiple ejected wave, And the three ripple four code encoding electronic circuit encoded signals output of digital multiple ejected wave, the three ripple dicodes hair of digital multiple ejected wave Radio the sub-circuit also three-code encoded electronic circuit encoded signal of three ripples of the multiple ejected wave of nil formula and digital multiple ejected wave To emission, three ripple dicode launching electronics circuits of digital multiple ejected wave do not connect three ripple four code encoding electronic circuit encoded signals Energization source can not be launched.

So, the coding circuit of three ripple two of the coding circuit of two ripple one of digital multiple ejected wave and digital multiple ejected wave is equal It is closed, no signal is to emission.

And total electronic circuit switch element of digital multiple ejected wave keep external three output ends in Q1 to digital One ripple electronic switch controling end of multiple ejected wave is output as high potential, and a ripple electronic switch of digital multiple ejected wave is opened into defeated Go out voltage；Thus open the preparatory stage of the transmitting of the coding circuit of a ripple two of digital multiple ejected wave.

One ripple electronic switch output end of the digital multiple ejected wave of the coding circuit of one ripple two of digital multiple ejected wave point Not with a ripple oscillating circuit Switching Power Supply end of digital multiple ejected wave, one yard of electronic cutting of a ripple of digital multiple ejected wave is powered-down Source, two yards of electronic switch power ends of a ripple of digital multiple ejected wave, the ripple dicode coding OR gate of digital multiple ejected wave Output circuit power end, a ripple dicode launching electronics circuit power end of digital multiple ejected wave is connected.

One ripple electronic switch of digital multiple ejected wave opens output voltage, a ripple oscillating circuit of digital multiple ejected wave Switching Power Supply end, one yard of electronic switch power end of a ripple of digital multiple ejected wave, two yards of electricity of a ripple of digital multiple ejected wave Sub switch power end, the ripple dicode coding OR gate output circuit power end of digital multiple ejected wave, digital multiple ejected wave One ripple dicode launching electronics circuit power end switches on power start-up operation.

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

One ripple oscillating circuit of digital multiple ejected wave switch two output ends respectively with a ripple of digital multiple ejected wave One yard of electronic switch controling end, two yards of electronic switch controling end connections of a ripple of digital multiple ejected wave；Digital multiple ejected wave A ripple oscillating circuit switch two output ends respectively to one yard of electronic switch controling end of a ripple of digital multiple ejected wave, numeral One ripple, two yards of electronic switch controling ends same time of the multiple ejected wave of formula outwards exports high potential and low potential each other respectively, or mutually It is low potential and two signals of high potential；One yard of electronic switch controling end of a ripple of digital multiple ejected wave, it is digital multiple When two yards of electronic switch controling ends of a ripple of ejected wave are high potential signal, by the output voltage that is opened, digital multiple ejected wave One one yard of ripple electronic switch controling end, when two yards of electronic switch controling ends of a ripple of digital multiple ejected wave are low-potential signal, To be closed Non voltage output.

When digital multiple ejected wave one yard of electricity of a ripple from a ripple oscillating circuit output switching terminal to digital multiple ejected wave Sub switch control end exports high potential signal, and one yard of electronic switch of a ripple of digital multiple ejected wave will be opened, will be outwards defeated Go out voltage；One ripple oscillating circuit of digital multiple ejected wave switchs the two yards of electricity of a ripple of another output end to digital multiple ejected wave During sub switch control end output low-potential signal, it is defeated that two yards of electronic switches of a ripple of digital multiple ejected wave will be closed no-voltage Go out.

When the ripple oscillating circuit switch of digital multiple ejected wave keeps this state constant, a kind of digital multi-emitting Ripple remote-transmitter mode has been switched on a ripple one of the digital multiple ejected wave of the coding circuit of a ripple two of digital multiple ejected wave The emission process of code, while also start the digital multiple ejected wave of the coding circuit of a ripple two for closing digital multiple ejected wave The emission process of one two yards of ripple.

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

One yard of coded electronic circuit power end of a ripple of digital multiple ejected wave, one yard of volume of a ripple of digital multiple ejected wave Code output circuit power end is started working after switching on power, one yard of coded electronic circuit of a ripple of digital multiple ejected wave start into Row coding work；One ripple one of the digital multiple ejected wave that one yard of coded electronic circuit of a ripple of digital multiple ejected wave will be finished Code encoded signal, passes to one yard of coding output circuit of a ripple of digital multiple ejected wave, a ripple one of digital multiple ejected wave Code coding output circuit passes to the input of ripple dicode coding OR gate output circuit one of digital multiple ejected wave again；It is digital The one ripple dicode coding OR gate output circuit output end of multiple ejected wave and the ripple dicode launching electronics electricity of digital multiple ejected wave Road input connection；One ripple one of the digital multiple ejected wave that one yard of coded electronic circuit of a ripple of digital multiple ejected wave is finished Code encoded signal is compiled through one yard of coding output circuit of a ripple of digital multiple ejected wave and a ripple dicode of digital multiple ejected wave Code OR gate output circuit passes to a ripple dicode launching electronics circuit of digital multiple ejected wave to the digital multi-emitting of emission One yard of encoded signal of a ripple of ripple.

When two yards of electronic switching circuit control ends of a ripple of digital multiple ejected wave are low potential, digital multiple ejected wave One two yards of ripple electronic switching circuit will be closed Non voltage output.

Two yards of electronic switching circuit output ends of a ripple of digital multiple ejected wave respectively with a ripple of digital multiple ejected wave Two yards of coded electronic circuit power ends, two yards of coding output circuit power ends of a ripple of digital multiple ejected wave are connected.

Two yards of coded electronic circuit power ends of a ripple of digital multiple ejected wave, two yards of volumes of a ripple of digital multiple ejected wave Code output circuit power end is not worked due to access failure power supply, so two yards of coded electronic circuits of a ripple of digital multiple ejected wave Coding work is not carried out, also two yards of encoded signal outputs of the ripple without digital multiple ejected wave, digital multiple ejected wave Two yards of transmittings of encoded signal of a ripple of the one ripple dicode launching electronics circuit also multiple ejected wave of nil formula.

The digital multiple ejected wave remote-transmitter mode of such a just outwards completes a ripple two of digital multiple ejected wave The transmitting work of one yard of one ripple of the digital multiple ejected wave of coding circuit.

Keep digital multiple ejected wave total electronic circuit switch element 1,2,3, the output end Q1 of individual pulse be a high position, The original state of Q2, Q3 low level is constant, i.e., a ripple electronic switching circuit control end of digital multiple ejected wave is still high potential, numeral Three ripple electronic switching circuit control ends of two ripple electronic switching circuit control ends of the multiple ejected wave of formula and digital multiple ejected wave are still In the case of low potential.

One ripple oscillating circuit on-off circuit of digital multiple ejected wave overturns, the ripple vibration of digital multiple ejected wave The electric signals that circuitry switching circuitry output end is exported to two yards of electronic switching circuit control ends of a ripple of digital multiple ejected wave by Low potential is changed into high potential, and two yards of electronic switching circuits of a ripple of digital multiple ejected wave will be opened output voltage.

One yard of a ripple from one ripple oscillating circuit switching circuitry output of digital multiple ejected wave to digital multiple ejected wave When the electric signal of electronic switching circuit control end output is changed into low potential by high potential, one yard of a ripple of digital multiple ejected wave Electronic switching circuit will close Non voltage output.

At this moment the ripple two that a kind of digital multiple ejected wave remote-transmitter mode is switched on digital multiple ejected wave encodes electricity Two yards of one ripple of the digital multiple ejected wave on road starts the process of transmitting, while also start closing the one of digital multiple ejected wave One yard of closing process of transmitting of a ripple of the digital multiple ejected wave of the coding circuit of ripple two.

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

One yard of coded electronic circuit power end of a ripple of digital multiple ejected wave, one yard of volume of a ripple of digital multiple ejected wave Code output circuit power end is not worked due to access failure power supply, so one yard of coded electronic circuit of a ripple of digital multiple ejected wave Coding work is not carried out, also one yard of encoded signal output of the ripple without digital multiple ejected wave, digital multiple ejected wave One ripple dicode launching electronics circuit also one yard of encoded signal of a ripple of the multiple ejected wave of nil formula to emission.

When two yards of electronic switching circuit control ends of a ripple of digital multiple ejected wave are high potential, digital multiple ejected wave One two yards of ripple electronic switching circuit will be opened output voltage；Two yards of coded electronic circuit electricity of a ripple of digital multiple ejected wave Source, two yards of coding output circuit power ends of a ripple of digital multiple ejected wave are started working after switching on power, digital multiple Two yards of coded electronic circuits of a ripple of ejected wave proceed by two yards of codings of encoded signal of a ripple of digital multiple ejected wave；Numeral The two yards of encoded signals of a ripple for the digital multiple ejected wave that two yards of coded electronic circuits of a ripple of the multiple ejected wave of formula will be finished, transmission To two yards of coding output circuits of a ripple of digital multiple ejected wave, two yards of coding output circuits of a ripple of digital multiple ejected wave are again Pass to the input of ripple dicode coding OR gate output circuit one of digital multiple ejected wave；One ripple of digital multiple ejected wave is double Code coding OR gate output circuit output end is connected with a ripple dicode launching electronics circuit input end of digital multiple ejected wave；Numeral The two yards of encoded signals of a ripple for the digital multiple ejected wave that two yards of coded electronic circuits of a ripple of the multiple ejected wave of formula will be finished are through number The one ripple dicode coding OR gate output circuit of the multiple ejected wave of word formula is exported to a ripple dicode launching electronics of digital multiple ejected wave Two yards of encoded signals of a ripple from circuit to the digital multiple ejected wave of emission.

The digital multiple ejected wave remote-transmitter mode of such a just completes to the digital multiple ejected wave of emission Two yards of encoded signal work of a ripple of the digital multiple ejected wave of the coding circuit of ripple two.

Change, digital multiple ejected wave are there occurs in total electronic circuit switch element output state of digital multiple ejected wave Total electronic impulse circuit have input second pulse to total decimal counting circuit counting input end of digital multiple ejected wave Signal.

Total electronic circuit switch element of digital multiple ejected wave external three output ends Q1, Q2, Q3 are that is, digital more Three output ends Q1, Q2 of total decimal counting circuit counting of transmitted wave, the Q2 of Q3 are output as high potential, and Q1, Q3, difference are defeated It is low potential to go out；Q2 is to digital multiple in three external output ends of total electronic circuit switch element of digital multiple ejected wave Two ripple electronic switch controling ends of ejected wave are output as high potential, and two ripple electronic switches of digital multiple ejected wave are opened into output electricity Pressure；Q1, Q3 in three external output ends of total electronic circuit switch element of digital multiple ejected wave, respectively to digital multiple One ripple electronic switch controling end of ejected wave, the three ripple electronic switch controling ends output low potential of digital multiple ejected wave, respectively will Two ripple electronic switches of digital multiple ejected wave, three ripple electronic switches of digital multiple ejected wave are closed, and no-voltage is defeated Go out；The digital multiple ejected wave remote-transmitter mode of such a opens the hair of the coding circuit of two ripple one of digital multiple ejected wave Penetrate the stage, also start the coding circuit of a ripple two of digital multiple ejected wave and the coding of three ripple two of digital multiple ejected wave simultaneously Circuit transmission closing process.

The one ripple electronic switching circuit control of the digital multiple ejected wave of the coding circuit of one ripple two of digital multiple ejected wave End, and digital multiple ejected wave the coding circuit of three ripple two digital multiple ejected wave three ripple electronic switching circuit control ends it is same During for low potential, a ripple electronic switching circuit of digital multiple ejected wave, and three ripple electronic cuttings of digital multiple ejected wave are powered-down Road will be closed Non voltage output.

One ripple electronic switching circuit output end Non voltage output of digital multiple ejected wave, a ripple of digital multiple ejected wave Oscillating circuit on-off circuit power end, one yard of electronic switch power end of a ripple of digital multiple ejected wave, digital multiple ejected wave Two yards of electronic switch power ends of a ripple, digital multiple ejected wave a ripple dicode coding OR gate output circuit power end, numeral The one equal access failure power supply in ripple dicode launching electronics circuit power end of the multiple ejected wave of formula does not work.

One yard of coded electronic circuit power end of a ripple of digital multiple ejected wave, one yard of volume of a ripple of digital multiple ejected wave Code output circuit power end；Two yards of coded electronic circuit power ends of a ripple of digital multiple ejected wave, digital multiple ejected wave One two yards of ripple coding output circuit power end, also access failure power supply also do not work；So one yard of a ripple of digital multiple ejected wave Coded electronic circuit, two yards of coded electronic circuits of a ripple of digital multiple ejected wave do not carry out coding work, also without numeral One yard of coded electronic circuit code signal of a ripple of the multiple ejected wave of formula, and digital multiple ejected wave two yards of coded electronic electricity of a ripple The output of road encoded signal, a ripple one of a ripple dicode launching electronics circuit of the digital multiple ejected wave also multiple ejected wave of nil formula Code coded electronic circuit code signal, and digital multiple ejected wave two yards of coded electronic circuit code signals of a ripple to outgoing Penetrate.One ripple dicode launching electronics circuit access failure power supply of digital multiple ejected wave can not carry out launch mission.

Similarly, the three ripple electronic switches control of the digital multiple ejected wave of the coding circuit of three ripple two of digital multiple ejected wave It is low-voltage to hold, three ripple electronic switch output end Non voltage outputs of digital multiple ejected wave.

Three ripple electronic switching circuit output end Non voltage outputs of digital multiple ejected wave, three ripples of digital multiple ejected wave Oscillating circuit on-off circuit power end, three ripple trigram electronic switch power ends of digital multiple ejected wave, digital multiple ejected wave Three ripples, four yards of electronic switch power ends, digital multiple ejected wave three ripple dicodes coding OR gate output circuit power end, numeral The three equal access failure power supplys in ripple dicode launching electronics circuit power end of the multiple ejected wave of formula do not work.

The three-code encoded electronic circuit power end of three ripples of digital multiple ejected wave, three ripple trigrams of digital multiple ejected wave are compiled Code output circuit power end, three ripple four code encoding electronic circuit power ends of digital multiple ejected wave, digital multiple ejected wave Three ripple four code encoding output circuit power ends, also access failure power supply also do not work；So three ripple trigrams of digital multiple ejected wave Coded electronic circuit, three ripple four code encoding electronic circuits of digital multiple ejected wave do not carry out coding work, also without numeral The three-code encoded electronic circuit encoded signal of three ripples of the multiple ejected wave of formula, and three ripple four code encoding electronics of digital multiple ejected wave are electric The output of road encoded signal, three ripples three of three ripple dicode launching electronics circuits of the digital multiple ejected wave also multiple ejected wave of nil formula Code coded electronic circuit code signal, and digital multiple ejected wave three ripple four code encoding electronic circuit encoded signals to outgoing Penetrate.Three ripple dicode launching electronics circuit access failure power supplys of digital multiple ejected wave can not carry out launch mission.

So start the coding circuit of a ripple two of digital multiple ejected wave and the coding of three ripple two of digital multiple ejected wave Circuit transmission closing process.

Two ripples, five yards of electronic switch controls of the digital multiple ejected wave of the coding circuit of two ripple one of digital multiple ejected wave It is high potential to hold, by the output voltage that is opened；, two ripples, five yards of coded electronic circuit power ends of digital multiple ejected wave, numeral Two ripples, five yards of coding output circuit power ends of the multiple ejected wave of formula, two ripples, five yards of launching electronics circuit electricity of digital multiple ejected wave Source switches on power start-up operation, and two ripples, five yards of coded electronic circuits of digital multiple ejected wave proceed by digital multi-emitting Two ripples, five yards of codings of encoded signal of ripple.

Five yards of two ripple of the digital multiple ejected wave that two ripples, five yards of coded electronic circuits of digital multiple ejected wave will be finished Encoded signal, passes to two ripples, five yards of coding output circuits of digital multiple ejected wave, five yards of two ripple of digital multiple ejected wave Coding output circuit output end is connected with two ripples, five yards of launching electronics circuit input ends of digital multiple ejected wave；It is digital multiple Two ripples, the five yards of encoded signals for the digital multiple ejected wave that two ripples, five yards of coded electronic circuits of ejected wave are finished are through digital multiple Two ripples, five yards of coding output circuits of ejected wave export two ripples, the five yards of launching electronics circuits to digital multiple ejected wave to emission Two ripples, five yards of encoded signals of digital multiple ejected wave.

The digital multiple ejected wave remote-transmitter mode of such a just outwards completes the volume of two ripple one of digital multiple ejected wave The transmitting work of two ripples, five yards of circuits of the digital multiple ejected wave of code circuit.

Change, digital multiple ejected wave are there occurs in total electronic circuit switch element output state of digital multiple ejected wave Total electronic impulse circuit have input the 3rd pulse to total decimal counting circuit counting input end of digital multiple ejected wave Signal.

Total electronic circuit switch element of digital multiple ejected wave external three output ends Q1, Q2, Q3 are that is, digital more Three output end Q3 that total decimal counting circuit of transmitted wave is counted are high potential, and Q1, Q2 are output as low potential respectively；Number In three external output ends of total electronic circuit switch element of the multiple ejected wave of word formula three ripples electricity from Q3 to digital multiple ejected wave Sub switch control end is output as high potential, and three ripple electronic switches of digital multiple ejected wave are opened into output voltage；It is digital many Q1, Q2 in three external output ends of total electronic circuit switch element of transmitted wave, respectively to a ripple of digital multiple ejected wave Electronic switch controling end, the two ripple electronic switch controling ends output low potential of digital multiple ejected wave, respectively will be digital multiple One ripple electronic switch of ejected wave, two ripple electronic switches of digital multiple ejected wave are closed, Non voltage output；Such a Digital multiple ejected wave remote-transmitter mode opens the launching phase of the coding circuit of three ripple two of digital multiple ejected wave, also together When start the coding circuit of a ripple two and digital multiple ejected wave for closing digital multiple ejected wave the coding circuit of two ripple one hair Penetrate process.

One ripple electronic switch controling end of the digital multiple ejected wave of the coding circuit of one ripple two of digital multiple ejected wave is Low-voltage, a ripple electronic switch output end Non voltage output of digital multiple ejected wave；The one ripple vibration of digital multiple ejected wave Contactor power end, one yard of electronic switch power end of a ripple of digital multiple ejected wave, a ripple two of digital multiple ejected wave Code electronic switch power end, the ripple dicode coding OR gate output circuit power end of digital multiple ejected wave, digital multi-emitting The one equal access failure power supply in ripple dicode launching electronics circuit power end of ripple does not work.

One yard of coded electronic circuit power end of a ripple of digital multiple ejected wave, one yard of volume of a ripple of digital multiple ejected wave Code output circuit power end, two yards of coded electronic circuit power ends of a ripple of digital multiple ejected wave, digital multiple ejected wave One two yards of ripple coding output circuit power end, also access failure power supply also do not work.

So one yard of coded electronic circuit of a ripple of digital multiple ejected wave, two yards of codings of a ripple of digital multiple ejected wave Electronic circuit does not carry out coding work, also the one yard of coded electronic circuit code signal of a ripple without digital multiple ejected wave, And two yards of coded electronic circuit code signal outputs of a ripple of digital multiple ejected wave, the ripple dicode hair of digital multiple ejected wave One yard of coded electronic circuit code signal of a ripple of the radio sub-circuit also multiple ejected wave of nil formula, the also multiple ejected wave of nil formula Two yards of coded electronic circuit code signals of a ripple to emission.One ripple dicode launching electronics circuit of digital multiple ejected wave is not Switching on power can not carry out launch mission.

Similarly, two ripples, five yards of electronic switches of the digital multiple ejected wave of the coding circuit of two ripple one of digital multiple ejected wave Control end is low potential, will be closed Non voltage output.

Two ripples, five yards of coded electronic circuit power ends of digital multiple ejected wave, two ripples, five yards of volumes of digital multiple ejected wave Code output circuit power end, two ripples, five yards of launching electronics circuit power end access failure power supplys of digital multiple ejected wave do not work, Two ripples, five yards of coded electronic circuits of digital multiple ejected wave do not carry out two ripples, five yards of encoded signals of digital multiple ejected wave Coding work；Two ripples five of the digital multiple ejected wave that two ripples, five yards of coded electronic circuits of digital multiple ejected wave finish nothing Code encoded signal, passes to two ripples, five yards of coding output circuits of digital multiple ejected wave, two ripples five of digital multiple ejected wave Code coding output circuit output end is connected with two ripples, five yards of launching electronics circuit input ends of digital multiple ejected wave；It is digital many Two ripples, the five yards of encoded signals for the digital multiple ejected wave that two ripples, five yards of coded electronic circuit no-trumps of transmitted wave are finished export to Two ripples, five yards of launching electronics circuits of digital multiple ejected wave, two ripples, five yards of launching electronics circuits of digital multiple ejected wave are countless Two ripples, five yards of encoded signal transmittings of the multiple ejected wave of word formula, two ripples, five yards of launching electronics circuit access failures of digital multiple ejected wave Power supply can not be to two ripples, five yards of encoded signals of the digital multiple ejected wave of emission.

So, the coding circuit of two ripple one of the coding circuit of a ripple two of digital multiple ejected wave and digital multiple ejected wave is equal It is closed, no signal is to emission.

Q3 is to digital multi-emitting in three external output ends of total electronic circuit switch element of digital multiple ejected wave Three ripple electronic switch controling ends of the digital multiple ejected wave of the coding circuit of three ripple two of ripple are output as high potential, will be digital many Three ripple electronic switches of transmitted wave open output voltage, open the transmitting of the coding circuit of three ripple two of digital multiple ejected wave Preparatory stage.

Three ripple electronic switches of digital multiple ejected wave open output voltage, three ripple oscillating circuits of digital multiple ejected wave Switching Power Supply end, three ripple trigram electronic switch power ends of digital multiple ejected wave, three ripples, four yards of electricity of digital multiple ejected wave Sub switch power end, the three ripple dicodes coding OR gate output circuit power end of digital multiple ejected wave, digital multiple ejected wave Three ripple dicode launching electronics circuit power ends switch on power start-up operation.

Three ripple oscillating circuit switch connection power supplys of digital multiple ejected wave start vibration, three ripples of digital multiple ejected wave Oscillating circuit switchs two output ends, and high potential and low potential each other, or low potential each other are outwards exported respectively in the same time With two unlike signals of high potential, three ripple oscillating circuits of digital multiple ejected wave switch two output ends respectively with it is digital Three ripple trigram electronic switch controling ends of multiple ejected wave, three ripples, four yards of electronic switch controling ends of digital multiple ejected wave are connected Connect；Three ripple oscillating circuits of digital multiple ejected wave switch two output ends respectively to the three ripple trigrams electricity of digital multiple ejected wave Sub switch control end, three ripples, four yards of electronic switch controling ends same time of digital multiple ejected wave, outwards output was high each other respectively Current potential and low potential, or two signals of low potential and high potential each other；When three ripple oscillating circuits of digital multiple ejected wave are opened Close output end and export high potential signal, digital multiple ejected wave to three ripple trigram electronic switch controling ends of digital multiple ejected wave Three ripple trigram electronic switches will be opened, by outside output voltage；The three ripple oscillating circuits switch of digital multiple ejected wave is another It is digital many when one output end exports low-potential signal to three ripples, four yards of electronic switch controling ends of digital multiple ejected wave simultaneously Three ripples, four yards of electronic switches of transmitted wave will be closed Non voltage output.

When the three ripple oscillating circuits switch of digital multiple ejected wave keeps this state constant, a kind of digital multi-emitting Ripple remote-transmitter mode has been switched on three ripples three of the digital multiple ejected wave of the coding circuit of three ripple two of digital multiple ejected wave The emission process of code, while also start the digital multiple ejected wave of the coding circuit of three ripple two for closing digital multiple ejected wave The emission process of three four yards of ripples.

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

Three ripple trigram electronic switching circuit output ends of digital multiple ejected wave respectively with three ripples of digital multiple ejected wave Three-code encoded electronic circuit power end, the three-code encoded output circuit power end of three ripples of digital multiple ejected wave is connected.

The three-code encoded electronic circuit power end of three ripples of digital multiple ejected wave, three ripple trigrams of digital multiple ejected wave are compiled Code output circuit power end is started working after switching on power, the three-code encoded electronic circuit of three ripples of digital multiple ejected wave start into Row coding work；Three ripples three of the digital multiple ejected wave that the three-code encoded electronic circuit of three ripples of digital multiple ejected wave will be finished Code encoded signal, passes to the three-code encoded output circuit of three ripples of digital multiple ejected wave, three ripples three of digital multiple ejected wave Code coding output circuit passes to the input of three ripple dicodes coding OR gate output circuit one of digital multiple ejected wave again；It is digital The three ripple dicodes coding OR gate output circuit output end of multiple ejected wave and the three ripple dicode launching electronics electricity of digital multiple ejected wave Road input connection.

Three ripple trigrams of the digital multiple ejected wave that the three-code encoded electronic circuit of three ripples of digital multiple ejected wave is finished are compiled Code signal is double through three ripples that the three ripple dicodes coding OR gate output circuit of digital multiple ejected wave passes to digital multiple ejected wave Code the three-code encoded signal of three ripples from launching electronics circuit to the digital multiple ejected wave of emission.

Meanwhile, it is digital multiple when three ripples, four yards of electronic switching circuit control ends of digital multiple ejected wave are low potential Three ripples, four yards of electronic switching circuits of ejected wave will be closed Non voltage output；Three ripple four code encoding electronics of digital multiple ejected wave Circuit power end, three ripple four code encoding output circuit power ends of digital multiple ejected wave are not worked due to access failure power supply, institute Coding work is not carried out with three ripple four code encoding electronic circuits of digital multiple ejected wave, also there is no digital multiple ejected wave Three ripple four code encoding signal outputs, three ripple dicode launching electronics circuits of the digital multiple ejected wave also multiple ejected wave of nil formula Three ripple four code encoding signals are outwards penetrated.

The digital multiple ejected wave remote-transmitter mode of such a just outwards completes three ripples two of digital multiple ejected wave The transmitting work of three ripple trigrams of the digital multiple ejected wave of coding circuit.

Keep digital multiple ejected wave total electronic circuit switch element 1,2,3, output end Q1, Q2 of individual pulse be low Current potential, 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, digital multiple One ripple electronic switching circuit control end of ejected wave is still low electricity with two ripple electronic switching circuit control ends of digital multiple ejected wave In the case of position.

Three ripple oscillating circuit on-off circuits of digital multiple ejected wave overturn, the three ripples vibration of digital multiple ejected wave Circuitry switching circuitry is to three ripples, four yards of electric signals of electronic switching circuit control ends output of digital multiple ejected wave by low potential It is changed into high potential, three ripples, four yards of electronic switching circuits of digital multiple ejected wave will be opened output voltage；It is digital Three ripple oscillating circuit on-off circuits of multiple ejected wave are defeated to three ripple trigram electronic switching circuit control ends of digital multiple ejected wave When the electric signal for going out is changed into low potential by high potential, three ripple trigram electronic switching circuits of digital multiple ejected wave will close nothing Voltage output.

Three ripples two that the digital multiple ejected wave remote-transmitter mode of such a is switched on digital multiple ejected wave encode electricity Four yards of three ripple of the digital multiple ejected wave on road starts the process of transmitting, while also start closing the three of digital multiple ejected wave The closing process of the three ripple trigrams transmitting of the digital multiple ejected wave of the coding circuit of ripple two.

Three ripple trigram electronic switching circuit output end Non voltage outputs of digital multiple ejected wave, its output end with it is digital The three-code encoded electronic circuit power end of three ripples of multiple ejected wave, the three-code encoded output circuit power supply of three ripples of digital multiple ejected wave End is connected, the three-code encoded electronic circuit power end of three ripples of digital multiple ejected wave, three ripple trigrams of digital multiple ejected wave Coding output circuit power end is not worked due to access failure power supply, so the three-code encoded electronics electricity of three ripples of digital multiple ejected wave Road does not carry out coding work, also the three-code encoded signal output of three ripples without digital multiple ejected wave, digital multiple ejected wave Three ripple dicode launching electronics circuits also the three-code encoded signal of three ripples of the multiple ejected wave of nil formula to emission.

When three ripples, four yards of electronic switching circuit control ends of digital multiple ejected wave are high potential, digital multiple ejected wave Three four yards of ripple electronic switching circuits will be opened output voltage；Three ripples, four yards of electronic switching circuits of digital multiple ejected wave are defeated Go out end respectively with three ripple four code encoding electronic circuit power ends of digital multiple ejected wave, four yards of three ripple of digital multiple ejected wave Coding output circuit power end is connected；Three ripple four code encoding electronic circuit power ends of digital multiple ejected wave are digital more Three ripple four code encoding output circuit power ends of transmitted wave are started working after switching on power.

Three ripple four code encoding electronic circuits of digital multiple ejected wave proceed by four yards of three ripple of digital multiple ejected wave The coding of encoded signal；The three of the digital multiple ejected wave that three ripple four code encoding electronic circuits of digital multiple ejected wave will be finished Ripple four code encoding signal, passes to three ripple four code encoding output circuits of digital multiple ejected wave, the three of digital multiple ejected wave Ripple four code encoding output circuit passes to the three ripple dicodes coding OR gate output circuit of digital multiple ejected wave again；It is digital multiple The three ripple dicodes coding OR gate output circuit output end of ejected wave is defeated with three ripples, four yards of launching electronics circuits of digital multiple ejected wave Enter end connection；Four yards of three ripple of the digital multiple ejected wave that three ripple four code encoding electronic circuits of digital multiple ejected wave will be finished Encoded signal passes to three ripples of digital multiple ejected wave through three ripple four code encoding OR gate output circuits of digital multiple ejected wave Three ripple four code encoding signals from dicode launching electronics circuit to the digital multiple ejected wave of emission.

The digital multiple ejected wave remote-transmitter mode of such a just completes three to the digital multiple ejected wave of emission The three ripple four code encoding signals work of the digital multiple ejected wave of the coding circuit of ripple two.

The transmitting that thus a kind of digital multiple ejected wave remote-transmitter mode outwards completes digital multiple ejected wave sets The emission process of a cycle of digital multiple ejected wave in meter scheme.

Due to total electronic switching circuit list of digital multiple ejected wave in a kind of digital multiple ejected wave remote-transmitter mode Three of unit export Q1, Q2, Q1 ends alternately and repeatedly circulation change, and its cycle is most long；It keep Q1, be high potential State, i.e., the control end of a ripple electronic switching circuit of digital multiple ejected wave is high potential, and digital multiple ejected wave two The control end of ripple electronic switching circuit is low potential, and the control end of three ripple electronic switching circuits of digital multiple ejected wave is low electricity In the case of invariant position, due to a ripple oscillating circuit switch oscillating alternation of digital multiple ejected wave, and they and its The cooperation of its circuit completes one yard of a ripple of the digital multiple ejected wave of a wave circuit of digital multiple ejected wave and digital The transmitting work of two yards of one ripple of multiple ejected wave.

When the state of total electronic switching circuit unit of digital multiple ejected wave there occurs change, digital multiple ejected wave Q2 is high potential in three output Q1, Q2, Q3 ends of total electronic switching circuit unit, and the output end of Q2, Q3 is respectively low potential, The control end of two ripple electronic switching circuits of i.e. digital multiple ejected wave be high potential, and digital multiple ejected wave a ripple electronics The control end of on-off circuit is low potential, and the control end of three ripple electronic switching circuits of digital multiple ejected wave is that low potential is constant In the case of, due to two ripple oscillating circuit switch oscillating alternations of digital multiple ejected wave, and they and other circuits Cooperation complete digital multiple ejected wave two wave circuits digital multiple ejected wave five yards of two ripple transmitting work.

When the state of total electronic switching circuit unit of digital multiple ejected wave there occurs change, digital multiple ejected wave Q3 is high potential in three output Q1, Q2, Q3 ends of total electronic switching circuit unit, and the output end of Q1, Q2 is respectively low potential, The control end of three ripple electronic switching circuits of i.e. digital multiple ejected wave be high potential, and digital multiple ejected wave a ripple electronics The control end of on-off circuit is low potential, and the control end of two ripple electronic switching circuits of digital multiple ejected wave is that low potential is constant In the case of, due to three ripple oscillating circuit switch oscillating alternations of digital multiple ejected wave, and they and other circuits Cooperation complete digital multiple ejected wave three wave circuits digital multiple ejected wave three ripple trigrams and digital multi-emitting The transmitting work of four yards of three ripple of ripple.

When total electronic switching circuit unit of digital multiple ejected wave keeps the state of this circulation change, due to digital The one ripple oscillating circuit switch of multiple ejected wave, the two ripple oscillating circuits switch of digital multiple ejected wave, digital multiple ejected wave Three ripple oscillating circuit switch oscillating alternations, and they complete the one of digital multiple ejected wave with the cooperation of other circuits Two yards of ripple, the transmitting work of one yard of two ripple of digital multiple ejected wave and two yards of three ripple of digital multiple ejected wave.

A kind of numeral in another cycle of a cycle of digital multiple ejected wave remote-transmitter mode is completed like this The transmitting work of the multiple ejected wave of formula, until the button switch circuit for decontroling digital multiple ejected wave disconnects.

The present invention has following outstanding advantages after implementing：

1st, a kind of digital multiple ejected wave remote-transmitter mode is due to putting into and releasing the transmitted wave that uses of ordinary circumstance for multiple Ejected wave combining form；The form that it is encoded to odd encoder flexible combination has the anti-ability of cracking very high, can play optimum efficiency, shows Work improves catches strong with radio scanner criminal offence resistivity to use decoder, grabbing a yard device.2nd, it is a kind of digital Multiple ejected wave remote-transmitter mode is easy to install, can be easy to use in a launch-box, and good operation has in market competition Very big competitiveness.

3rd, a kind of digital multiple ejected wave remote-transmitter mode is easily produced, stable and reliable for performance, in being adapted to, small enterprise's life Produce.

Brief description of the drawings

Fig. 1 is a kind of digital multiple ejected wave remote-transmitter mode frame principle figure.

In figure：Square frame 1, the battery supply for representing digital multiple ejected wave, square frame 2, represent pressing for digital multiple ejected wave Button switch, square frame 3, total electronic circuit switch element of the digital multiple ejected wave of expression；Square frame 4, the digital multiple ejected wave of expression A ripple electronic switch, square frame 5, represent the ripple oscillating circuit switch of digital multiple ejected wave；Square frame 6, expression are digital more One yard of electronic switch of a ripple of transmitted wave, square frame 7, one yard of coded electronic circuit of a ripple of the digital multiple ejected wave of expression, square frame 8th, one yard of coding output circuit of a ripple of digital multiple ejected wave is represented；Square frame 9, two yards of a ripple for representing digital multiple ejected wave Electronic switch, square frame 10, two yards of coded electronic circuits of a ripple of the digital multiple ejected wave of expression, square frame 11, expression are digital more Two yards of coding output circuits of a ripple of transmitted wave；Square frame 12, the ripple dicode coding OR gate output for representing digital multiple ejected wave Circuit, square frame 13, the ripple dicode launching electronics circuit composition of the digital multiple ejected wave of expression；Square frame 14, expression are digital more Two ripples, five yards of electronic switches of transmitted wave, square frame 15, three ripple electronic switches of the digital multiple ejected wave of expression, square frame 16, expression The three ripple oscillating circuits switch of digital multiple ejected wave；Square frame 17, the three ripple trigram electronic switches for representing digital multiple ejected wave, Square frame 18, the three-code encoded electronic circuit of three ripples for representing digital multiple ejected wave, square frame 19, the three of the digital multiple ejected wave of expression The three-code encoded output circuit of ripple；Square frame 20, three ripples, the four yards of electronic switches for representing digital multiple ejected wave, square frame 21, expression number Three ripple four code encoding electronic circuits of the multiple ejected wave of word formula, square frame 22, represent that three ripple four code encodings of digital multiple ejected wave are defeated Go out circuit；Square frame 23, the three ripple dicodes coding OR gate output circuit for representing digital multiple ejected wave, square frame 24, expression are digital Two ripples, five yards of coded electronic circuits of multiple ejected wave, square frame 25, two ripples, five yards of coding output electricity of the digital multiple ejected wave of expression Road, square frame 26, two ripples, five yards of launching electronics circuits compositions of the digital multiple ejected wave of expression；Square frame 27, expression are digital multiple Three ripple dicode launching electronics circuits of ejected wave, square frame 35, the coding circuit of a ripple two of the digital multiple ejected wave of expression, square frame 36, Represent the coding circuit of two ripple one of digital multiple ejected wave, square frame 37, the coding circuit of three ripple two of the digital multiple ejected wave of expression.

Fig. 2 is total electronic circuit switch element frame principle figure of digital multiple ejected wave.

In figure：Square frame 3, expression；Square frame 3-1, the total electronic impulse circuit for representing digital multiple ejected wave；Square frame 3-2, Represent total decimal counting circuit of digital multiple ejected wave；Square frame 3-3, the total clear circuit for representing digital multiple ejected wave, 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, the 3rd pulse output of the decimal counting circuit of expression.

Specific embodiment

Fig. 1, Fig. 2, respectively represent a kind of mode that a kind of digital multiple ejected wave remote-transmitter mode is embodied.

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

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

3rd, check and hot- line test.

Associated contacts are checked with avometer, or oscillograph.

1st, the button switch of digital multiple ejected wave is checked with ohmmeter first；Pressed with hand or decontroled and be digital The button switch of multiple ejected wave；With the button switch input of the digital multiple ejected wave of ohm table look-up, signal output part break-make It is whether good.

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

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

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

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

（4）, inspection to total electronics alteration switch of digital multiple ejected wave, believed with avometer positive pole or oscillograph positive pole Number input tests three output ends of total electronics alteration switch of digital multiple ejected wave respectively, digital multiple ejected wave it is total Electronics alteration switch will start working after switching on power, and be vibrated；With avometer positive pole or oscillograph positive signal input Three output ends Q1, Q2 of total electronics alteration switch of digital multiple ejected wave, Q3 are tested respectively, output will be sequentially output respectively One high, the different electric potential signal of two low three；If can't detect, should check whether that element insertion occurs with welding wrong By mistake.

（5）, to a ripple electronic switch of digital multiple ejected wave, two ripple electronic switches of digital multiple ejected wave, numeral The inspection of three ripple electronic switches of the multiple ejected wave of formula.

Test a ripple electronics of digital multiple ejected wave respectively with avometer positive pole or oscillograph positive signal input Switch, two ripple electronic switches of digital multiple ejected wave, the power end of three ripple electronic switches of digital multiple ejected wave is connected to be had After operating voltage, a ripple of digital multiple ejected wave is tested respectively with avometer positive pole or oscillograph positive signal input Electronic switch, two ripple electronic switches of digital multiple ejected wave, the control end of three ripple electronic switches of digital multiple ejected wave and Output end, a ripple electronic switch of digital multiple ejected wave, two ripple electronic switches of digital multiple ejected wave, digital multi-emitting When the control end of three ripple electronic switches of ripple is high potential, a ripple electronic switch of digital multiple ejected wave, digital multi-emitting Two ripple electronic switches of ripple, the output end of three ripple electronic switches of digital multiple ejected wave has voltage output, digital multi-emitting One ripple electronic switch of ripple, two ripple electronic switches of digital multiple ejected wave, three ripple electronic switches of digital multiple ejected wave When control end is low potential, a ripple electronic switch of digital multiple ejected wave, two ripple electronic switches of digital multiple ejected wave, number The output end of three ripple electronic switches of the multiple ejected wave of word formula whether there is pressure output.

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

（6）, to one yard of coded electronic circuit of a ripple of digital multiple ejected wave, two yards of volumes of a ripple of digital multiple ejected wave Code electronic circuit, two ripples, five yards of coded electronic circuits of digital multiple ejected wave, three ripples of digital multiple ejected wave are three-code encoded Electronic circuit, three ripple four code encoding electronic circuits of digital multiple ejected wave are checked.

The one yard of coding of a ripple to digital multiple ejected wave is tested with avometer positive pole or oscillograph positive signal input Electronic circuit, two yards of coded electronic circuits of a ripple of digital multiple ejected wave, two ripples, five yards of coding electricity of digital multiple ejected wave Sub-circuit, the three-code encoded electronic circuit of three ripples of digital multiple ejected wave, three ripple four code encoding electronics of digital multiple ejected wave The power end of circuit is connected after having operating voltage, and one yard of a ripple in digital multiple ejected wave is input into oscillograph positive signal Coded electronic circuit, two yards of coded electronic circuits of a ripple of digital multiple ejected wave, two ripples, five yards of volumes of digital multiple ejected wave Code electronic circuit, the three-code encoded electronic circuit of three ripples of digital multiple ejected wave, three ripple four code encodings of digital multiple ejected wave The output end of electronic circuit, normally by test to its encoded signal；If can't detect, should check whether welding make a mistake or It is component wear.

（7）, to a ripple oscillating circuit of digital multiple ejected wave switch, three ripple oscillating circuits of digital multiple ejected wave are opened The inspection of pass.

The ripple for testing digital multiple ejected wave respectively with avometer positive pole or oscillograph positive signal input vibrates electricity Way switch, two output ends of the three ripple oscillating circuits switch of digital multiple ejected wave, the ripple vibration of digital multiple ejected wave Contactor, will start working after three ripple oscillating circuit switch connection power supplys of digital multiple ejected wave, be vibrated；Used with three Table positive pole or oscillograph positive signal input test the ripple oscillating circuit switch of digital multiple ejected wave respectively, digital many Two output ends of the three ripple oscillating circuits switch of transmitted wave will export respectively height each other or it is low each other two high it is different Electric potential signal；If can't detect, should check whether that element insertion makes a mistake with welding.

（8）, to one yard of electronic switch of a ripple of digital multiple ejected wave, two yards of electronic cuttings of a ripple of digital multiple ejected wave Close, two ripples, five yards of electronic switches of digital multiple ejected wave, three ripple trigram electronic switches of digital multiple ejected wave are digital more Three ripples, four yards of inspections of electronic switch of transmitted wave.

Test one yard of a ripple of digital multiple ejected wave respectively with avometer positive pole or oscillograph positive signal input Electronic switch, two yards of electronic switches of a ripple of digital multiple ejected wave, two ripples, five yards of electronic switches of digital multiple ejected wave, number Three ripple trigram electronic switches of the multiple ejected wave of word formula, the power end of three ripples, four yards of electronic switches of digital multiple ejected wave is connected to be had After operating voltage, a ripple of digital multiple ejected wave is tested respectively with avometer positive pole or oscillograph positive signal input One yard of electronic switch, two yards of electronic switches of a ripple of digital multiple ejected wave, two ripples, five yards of electronic cuttings of digital multiple ejected wave Close, three ripple trigram electronic switches of digital multiple ejected wave, three ripples, four yards of control ends of electronic switch of digital multiple ejected wave And output end, one yard of electronic switch of a ripple of digital multiple ejected wave, two yards of electronic switches of a ripple of digital multiple ejected wave, number Two ripples, five yards of electronic switches of the multiple ejected wave of word formula, three ripple trigram electronic switches of digital multiple ejected wave, digital multi-emitting When three ripples, four yards of control ends of electronic switch of ripple are high potential, one yard of electronic switch of a ripple of digital multiple ejected wave, numeral Two yards of electronic switches of a ripple of the multiple ejected wave of formula, two ripples, five yards of electronic switches of digital multiple ejected wave, digital multiple ejected wave Three ripple trigram electronic switches, the output end of three four yards of electronic switches of ripple of digital multiple ejected wave has voltage output, digital One yard of electronic switch of a ripple of multiple ejected wave, two yards of electronic switches of a ripple of digital multiple ejected wave, digital multiple ejected wave Two five yards of ripple electronic switches, three ripple trigram electronic switches of digital multiple ejected wave, three ripples, four yards of electricity of digital multiple ejected wave When the control end of sub switch is low potential, one yard of electronic switch of a ripple of digital multiple ejected wave, the one of digital multiple ejected wave Two yards of electronic switches of ripple, two ripples, five yards of electronic switches of digital multiple ejected wave, three ripple trigram electronics of digital multiple ejected wave Switch, the output end of three four yards of electronic switches of ripple of digital multiple ejected wave whether there is pressure output.

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

（9）, to one yard of coding output circuit of a ripple of digital multiple ejected wave, two yards of volumes of a ripple of digital multiple ejected wave Code output circuit, two ripples, five yards of coding output circuits of digital multiple ejected wave, three ripples of digital multiple ejected wave are three-code encoded Output circuit, three ripple four code encoding output circuits of digital multiple ejected wave are checked.

The one yard of coding of a ripple to digital multiple ejected wave is tested with avometer positive pole or oscillograph positive signal input Output circuit, two yards of coding output circuits of a ripple of digital multiple ejected wave, two ripples, five yards of codings of digital multiple ejected wave are defeated Go out circuit, the three-code encoded output circuit of three ripples of digital multiple ejected wave, the three ripple four code encodings output of digital multiple ejected wave The power end of circuit is connected after having operating voltage, and one yard of a ripple in digital multiple ejected wave is input into oscillograph positive signal Coding output circuit, two yards of coding output circuits of a ripple of digital multiple ejected wave, two ripples, five yards of volumes of digital multiple ejected wave Code output circuit, the three-code encoded output circuit of three ripples of digital multiple ejected wave, three ripple four code encodings of digital multiple ejected wave The test of output circuit input to have encoded signal when, its input will be tested to normally by its encoded signal；If detection Less than should check whether that welding makes a mistake or component wear.

（10）, OR gate output circuit, three ripples of digital multiple ejected wave are encoded to a ripple dicode of digital multiple ejected wave Dicode encodes the inspection of OR gate output circuit.

The ripple dicode tested to digital multiple ejected wave with avometer positive pole or oscillograph positive signal input is encoded OR gate output circuit, the power end of the three ripple dicodes coding OR gate output circuit of digital multiple ejected wave is connected operating voltage Afterwards, the ripple dicode coding OR gate output circuit in digital multiple ejected wave is input into oscillograph positive signal, it is digital multiple After normal its encoded signal is arrived in the input test of the three ripple dicodes coding OR gate output circuit of ejected wave, its output end also will test To normal its encoded signal；If can't detect, should check whether that welding makes a mistake or component wear.

（11）, to a ripple dicode launching electronics circuit of digital multiple ejected wave, five yards of two ripple of digital multiple ejected wave Launching electronics circuit, the inspection of three ripple dicode launching electronics circuits of digital multiple ejected wave.

The ripple dicode tested to digital multiple ejected wave with avometer positive pole or oscillograph positive signal input is launched Electronic circuit, two ripples, five yards of launching electronics circuits of digital multiple ejected wave, the three ripple dicodes transmitting electricity of digital multiple ejected wave The power end of sub-circuit is connected after having operating voltage, is input into oscillograph positive signal double in a ripple of digital multiple ejected wave Code launching electronics circuit, two ripples, five yards of launching electronics circuits of digital multiple ejected wave, three ripple dicodes of digital multiple ejected wave After normal its encoded signal is arrived in the test of launching electronics circuit input end, test is also arrived normal its transmission signal by its output end；Such as Fruit can't detect, and should check whether that welding makes a mistake or component wear.

Claims (5)

1. a kind of digital multiple ejected wave remote-transmitter mode, it is characterized in that：By the battery supply of digital multiple ejected wave, numeral The button switch of the multiple ejected wave of formula, total electronic circuit switch element of digital multiple ejected wave；One ripple of digital multiple ejected wave Two coding circuits, the coding circuit of two ripple one of digital multiple ejected wave, the coding circuit of three ripple two of digital multiple ejected wave；

The coding circuit of one ripple two of digital multiple ejected wave by digital multiple ejected wave a ripple electronic switch, digital multi-emitting The one ripple oscillating circuit switch of ripple；

One yard of electronic switch of a ripple of digital multiple ejected wave, one yard of coded electronic circuit of a ripple of digital multiple ejected wave, number One yard of coding output circuit of a ripple of the multiple ejected wave of word formula；

Two yards of electronic switches of a ripple of digital multiple ejected wave, two yards of coded electronic circuits of a ripple of digital multiple ejected wave, number Two yards of coding output circuits of a ripple of the multiple ejected wave of word formula；

The one ripple dicode coding OR gate output circuit of digital multiple ejected wave, a ripple dicode launching electronics of digital multiple ejected wave Circuit；

The coding circuit of two ripple one of digital multiple ejected wave by digital multiple ejected wave two ripples, five yards of electronic switches, it is digital many Two ripples, five yards of coded electronic circuits of transmitted wave, two ripples, five yards of coding output circuits of digital multiple ejected wave are digital multiple Two ripples, five yards of launching electronics circuits of ejected wave；

The coding circuit circuit of three ripple two of digital multiple ejected wave by digital multiple ejected wave three ripple electronic switches, it is digital many The three ripple oscillating circuits switch of transmitted wave；

Three ripple trigram electronic switches of digital multiple ejected wave, the three-code encoded electronic circuit of three ripples of digital multiple ejected wave, number The three-code encoded output circuit of three ripples of the multiple ejected wave of word formula；

Three ripples, four yards of electronic switches of digital multiple ejected wave, three ripple four code encoding electronic circuits of digital multiple ejected wave, number Three ripple four code encoding output circuits of the multiple ejected wave of word formula；

The three ripple dicodes coding OR gate output circuit of digital multiple ejected wave, three ripple dicode launching electronics of digital multiple ejected wave Circuit is constituted；

Total electronic circuit switch element of digital multiple ejected wave by digital multiple ejected wave total electronic impulse circuit, it is digital Total decimal counting circuit of multiple ejected wave, total clear circuit composition of digital multiple ejected wave；

Total electronic impulse circuit pulse output end of digital multiple ejected wave is electric with total decade count of digital multiple ejected wave Road counting input end is connected, Q1, Q2, Q3, three pulse output end difference that the total decimal counting circuit of three six yards of ripples is counted Represent 1,2,3 output ends of pulse of total electronic circuit switch element of digital multiple ejected wave, digital multiple ejected wave it is total 1,2,3 output ends Q1, Q2 of pulse of electronic circuit switch element, Q3, respectively with a ripple electronic cutting of digital multiple ejected wave Close control end, two ripple electronic switch controling ends of digital multiple ejected wave, the three ripple electronic switches control of digital multiple ejected wave End is connected, the pulse output end Q3 that total decimal counting circuit of digital multiple ejected wave is counted also with digital multiple ejected wave The connection of total clear circuit signal input part, total clear circuit signal output part of digital multiple ejected wave is more with digital respectively Total electronic impulse circuit reset signal input of transmitted wave, total decimal counting circuit reset signal of digital multiple ejected wave Input is connected；

Button switch one end of digital multiple ejected wave connects the battery supply positive pole of digital multiple ejected wave, digital multiple Total electronic circuit switch element power end of the button switch other end of ejected wave and digital multiple ejected wave, digital multiple ejected wave A ripple electronic switch power end, two ripple electronic switch power ends of digital multiple ejected wave, three ripples of digital multiple ejected wave Electronic switch power end connects；

Total electronic circuit switch element ground wire of digital multiple ejected wave, a ripple electronic switch ground wire of digital multiple ejected wave, Two ripple electronic switch ground wires of digital multiple ejected wave, three ripple electronic switch ground wires of digital multiple ejected wave are multiple with digital The battery supply ground wire of ejected wave is connected；

It is three pulse output end Q1 of total electronic circuit switch element of digital multiple ejected wave, Q2, Q3, many with digital respectively One ripple electronic switch controling end of transmitted wave, two ripple electronic switch controling ends of digital multiple ejected wave, digital multiple ejected wave Three ripple electronic switch controling ends be connected；

One ripple electronic switch output end of digital multiple ejected wave is switched with a ripple oscillating circuit of digital multiple ejected wave respectively Power end, one yard of electronic switch power end of a ripple of digital multiple ejected wave, two yards of electronic cuttings of a ripple of digital multiple ejected wave Powered-down source, the ripple dicode coding OR gate output circuit power end of digital multiple ejected wave, a ripple of digital multiple ejected wave Dicode launching electronics circuit power end is connected；

The one ripple oscillating circuit switch ground terminal of digital multiple ejected wave, one yard of electronic switch ground of a ripple of digital multiple ejected wave Line end, two yards of electronic switch ground terminals of a ripple of digital multiple ejected wave, the ripple dicode coding OR gate of digital multiple ejected wave Output circuit ground terminal, a ripple dicode launching electronics circuit ground end of digital multiple ejected wave and the electricity of digital multiple ejected wave Pond power ground is connected；

One ripple oscillating circuit of digital multiple ejected wave switch two output ends respectively with one yard of a ripple of digital multiple ejected wave Electronic switch controling end, two yards of electronic switch controling ends of a ripple of digital multiple ejected wave are connected；

One yard of electronic switch output end of a ripple of digital multiple ejected wave is encoded with one yard of a ripple of digital multiple ejected wave respectively Electronic circuit power end, one yard of coding output circuit power end of a ripple of digital multiple ejected wave is connected；

One yard of coded electronic circuit ground end of a ripple of digital multiple ejected wave, one yard of coding of a ripple of digital multiple ejected wave is defeated Go out battery supply ground wire of the circuit ground end respectively with digital multiple ejected wave to be connected；

One yard of coding of one yard of coded electronic circuit output end of a ripple of digital multiple ejected wave and a ripple of digital multiple ejected wave Output circuit input is connected, one yard of coding output circuit output end of a ripple and the digital multi-emitting of digital multiple ejected wave The input of one ripple dicode coding OR gate output circuit one of ripple is connected；

Two yards of electronic switch output ends of a ripple of digital multiple ejected wave are encoded with two yards of a ripple of digital multiple ejected wave respectively Electronic circuit power end, two yards of coding output circuit power end connections of a ripple of digital multiple ejected wave；

Two yards of coded electronic circuit ground ends of a ripple of digital multiple ejected wave, two yards of codings of a ripple of digital multiple ejected wave are defeated Go out battery supply ground wire of the circuit ground end respectively with digital multiple ejected wave to be connected；

Two yards of codings of two yards of coded electronic circuit output ends of a ripple of digital multiple ejected wave and a ripple of digital multiple ejected wave Output circuit input is connected, two yards of coding output circuit output ends of a ripple and the digital multi-emitting of digital multiple ejected wave The input of one ripple dicode coding OR gate output circuit one of ripple is connected；The one ripple dicode coding OR gate of digital multiple ejected wave is defeated Go out circuit output end to be connected with a ripple dicode launching electronics circuit input end of digital multiple ejected wave；

Two ripples, five yards of electronic switch output ends of digital multiple ejected wave are encoded with five yards of two ripple of digital multiple ejected wave respectively Electronic circuit power end, two ripples, five yards of coding output circuit power ends of digital multiple ejected wave, the two of digital multiple ejected wave Five yards of launching electronics circuit power ends of ripple are connected；

Two ripples, five yards of coded electronic circuit ground ends of digital multiple ejected wave, two ripples, five yards of codings of digital multiple ejected wave are defeated Go out circuit ground end, two ripples, five yards of launching electronics circuit ground ends of digital multiple ejected wave respectively with digital multiple ejected wave Battery supply ground wire is connected；

Five yards of codings of two ripples, five yards of coded electronic circuit output ends of digital multiple ejected wave and two ripple of digital multiple ejected wave Output circuit input is connected, two ripples, five yards of coding output circuit output ends and the digital multi-emitting of digital multiple ejected wave Two ripples, five yards of launching electronics circuit input ends of ripple are connected；

Three ripple electronic switch output ends of digital multiple ejected wave are switched with three ripple oscillating circuits of digital multiple ejected wave respectively Power end, three ripple trigram electronic switch power ends of digital multiple ejected wave, three ripples, four yards of electronic cuttings of digital multiple ejected wave Powered-down source, the three ripple dicodes coding OR gate output circuit power end of digital multiple ejected wave, three ripples of digital multiple ejected wave Dicode launching electronics circuit power end is connected；

The three ripple oscillating circuits switch ground terminal of digital multiple ejected wave, the three ripple trigram electronic switches ground of digital multiple ejected wave Line end, three ripples, four yards of electronic switch ground terminals of digital multiple ejected wave, the three ripple dicodes coding OR gate of digital multiple ejected wave Output circuit ground terminal, three ripple dicode launching electronics circuit ground ends of digital multiple ejected wave and the electricity of digital multiple ejected wave Pond power ground is connected；

Three ripple oscillating circuits of digital multiple ejected wave switch two output ends respectively with three ripple trigrams of digital multiple ejected wave Electronic switch controling end, three ripples, four yards of electronic switch controling ends of digital multiple ejected wave are connected；

Three ripples of the three ripple trigram electronic switch output ends of digital multiple ejected wave respectively with digital multiple ejected wave are three-code encoded Electronic circuit power end, the three-code encoded output circuit power end of three ripples of digital multiple ejected wave is connected；

The three-code encoded electronic circuit ground terminal of three ripples of digital multiple ejected wave, three ripples of digital multiple ejected wave are three-code encoded defeated Go out battery supply ground wire of the circuit ground end respectively with digital multiple ejected wave to be connected；

The three-code encoded electronic circuit output end of three ripples of digital multiple ejected wave is three-code encoded with three ripples of digital multiple ejected wave Output circuit input is connected, the three-code encoded output circuit output end of three ripples and the digital multi-emitting of digital multiple ejected wave The input connection of three ripple dicodes coding OR gate output circuit one of ripple；

Three ripples, four yards of electronic switch output ends of digital multiple ejected wave respectively with three ripple four code encodings of digital multiple ejected wave Electronic circuit power end, three ripple four code encoding output circuit power ends of digital multiple ejected wave are connected；

Three ripple four code encoding electronic circuit ground terminals of digital multiple ejected wave, three ripple four code encodings of digital multiple ejected wave are defeated Go out battery supply ground wire of the circuit ground end respectively with digital multiple ejected wave to be connected；

Four yards of volumes of three ripples, four yards of code coded electronic circuit output ends of digital multiple ejected wave and three ripple of digital multiple ejected wave Code output circuit input is connected, and three ripple four code encoding output circuit output ends of digital multiple ejected wave are multiple with digital The input of three ripple dicodes coding OR gate output circuit one of ejected wave is connected；

The three ripple dicodes coding OR gate output circuit output end of digital multiple ejected wave and three ripple dicodes of digital multiple ejected wave Launching electronics circuit input end is connected.

2. the digital multiple ejected wave remote-transmitter mode of one kind according to claim 1, it is characterized in that：It is a kind of digital many Three transmitted waves of transmitted wave remote-transmitter mode are combined for a transmitted wave with two transmitted waves and three transmitted waves.

3. the digital multiple ejected wave remote-transmitter mode of one kind according to claim 1, it is characterized in that：It is a kind of digital many The five of transmitted wave remote-transmitter mode are encoded to a coding with a coding and No. two codings and a coding and a coding Combination.

4. the digital multiple ejected wave remote-transmitter mode of one kind according to claim 1, it is characterized in that：It is a kind of digital many The five of transmitted wave remote-transmitter mode are encoded to No. two codings with a coding and No. two codings and a coding and a coding Combination.

5. the digital multiple ejected wave remote-transmitter mode of one kind according to claim 1, it is characterized in that：It is a kind of digital many The five of transmitted wave remote-transmitter mode are encoded to No. two codings with a coding and No. two codings and No. two codings and a coding Combination.