CN106935009A - A kind of encryption safe emitter - Google Patents

Abstract

A kind of encryption safe emitter, belongs to electronic technology field, and battery power circuit is encoded by multicarrier five, and the coding button switch circuit of multicarrier five, multicarrier five encodes total electronics alteration switch circuit；Multicarrier five encodes a wave circuit, the coding double wave circuit composition of multicarrier five；Multicarrier five encodes double wave circuit and encodes double wave electronic switching circuit by multicarrier five, and the coding double wave electronics alteration switch circuit of multicarrier five, multicarrier five encodes two wave circuits, and multicarrier five encodes three wave circuits composition；Its transmitted wave is the combination of radio wave and infrared wave and ultrasonic wave, and its coding can carry out five kinds of modes and flexibly match with regular coding and rolling coding, and the combination of various changes can play optimum efficiency.So as to abundant transmitting coding techniques.The protection system of series can be turned into.With easily production, operate has very big competitiveness well in market competition.

Description

A kind of encryption safe emitter

Technical field

Belong to electronic technology field.

Background technology

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

Therefore remote control coding lift-off technology product anti-copying, anti-tampering, raising security classification are the important technology indexs for representing that remote control coding lift-off technology is good and bad.From in terms of present technical merit, for motor central lock input remote control, there is work not safe enough, the usual one kind " grabbing a yard device " of some lawless persons is also the special electrical devices of " reproducer ", when owner is when remote controlled locking is used, this electronic instrument can capture the radiofrequency signal and code signal of remote control, after treating that owner leaves, lawless person will be trusted with the instrument and audaciously copy code signal, unlocking theft is carried out, the major safety risks of unnecessary economic loss are caused to car owner；Single enormous amount with regard to automobile product one, there is great market.

Therefore, how anti-copying, how could realize improving use level of confidentiality degree, reduce use cost, be adapted to the product of minuscule-type-enterprise's production, also become the key subjects in market.

Prevent lawless person from will be trusted with the instrument and audaciously copy code signal, carry out unlocking theft, above-mentioned purpose is reached, is a kind of serious challenge, it is necessary to break through traditional mode of thinking completely, using being a kind of complete great innovation, therefore, main guiding theory of the invention is, a kind of multi-carrier scheme is developed, the various change selections of increase of its transmitting carrier wave and coding, improve secret and safe.

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

The content of the invention

A kind of encryption safe emitter also has the anti-ability of cracking very high, one is that its carrier wave is radio wave and the combination of infrared wave and ultrasonic wave, two is to work as the combination that it encoded or be regular coding and regular coding and regular coding and regular coding and regular coding, or for regular coding is combined with regular coding with rolling coding with regular coding with regular coding, or for rolling coding is combined with regular coding with rolling coding with regular coding with regular coding, for rolling coding and regular coding and rolling coding and rolling coding and regular coding etc. various changes combination, optimum efficiency can be played.So as to abundant transmitting coding techniques.There is the change of a variety of forms due to a kind of encryption safe emitter, the protection system of series can be turned into.With easily production, operate has very big competitiveness well in market competition.

1st, a kind of encryption safe emitter encodes battery power circuit by multicarrier five, and the coding button switch circuit of multicarrier five, multicarrier five encodes total electronics alteration switch circuit.

Multicarrier five encodes a wave circuit, the coding double wave circuit composition of multicarrier five.

Multicarrier five encodes a wave circuit and encodes a ripple electronic switching circuit by multicarrier five, multicarrier five encodes a wave conversion on-off circuit, multicarrier five encodes one yard of electronic switching circuit of a ripple, coding one ripple, the one yard of coded electronic circuit of multicarrier five, coding one ripple, the one yard of coding output circuit of multicarrier five；Multicarrier five encodes two yards of electronic switching circuits of a ripple, coding one ripple, the two yards of coded electronic circuits of multicarrier five, coding one ripple, the two yards of coding output circuits of multicarrier five；Multicarrier five encodes ripple dicode coding OR gate output circuit, and multicarrier five encodes a code-excited output circuit of ripple dicode, and multicarrier five encodes ripple dicode launching electronics circuit composition.

Multicarrier five encodes double wave circuit and encodes double wave electronic switching circuit by multicarrier five, and the coding double wave electronics alteration switch circuit of multicarrier five, multicarrier five encodes two wave circuits, and multicarrier five encodes three wave circuits composition.

Multicarrier five encodes two wave circuits and encodes two ripples, five yards of electronic switching circuits by multicarrier five, multicarrier five encodes two ripples, five yards of coded electronic circuits, multicarrier five encodes two ripples, five yards of coding output circuits, multicarrier five encodes two ripples, five yards of code-excited output circuits, and multicarrier five encodes two ripples, five yards of launching electronics circuit compositions.

Multicarrier five encodes three wave circuits and encodes three ripple electronic switching circuits by multicarrier five, and multicarrier five encodes three wave conversion on-off circuits.

Multicarrier five encodes three ripple trigram electronic switching circuits, the coding three-code encoded electronic circuit of three ripples of multicarrier five, the coding three-code encoded output circuit of three ripples of multicarrier five.

Multicarrier five encodes three ripples, four yards of electronic switching circuits, and multicarrier five encodes three ripple four code encoding electronic circuits, and multicarrier five encodes three ripple four code encoding output circuits.

Multicarrier five encodes three ripple dicodes coding OR gate output circuit, and multicarrier five encodes the three code-excited output circuits of ripple dicode, and multicarrier five encodes three ripple dicode launching electronics circuits composition.

The coding button switch circuit on one side connection coding battery power circuit positive pole of multicarrier five of multicarrier five, the coding button switch circuit other end of multicarrier five encodes total electronics alteration switch circuit power end with multicarrier five respectively, the multicarrier five that multicarrier five encodes a wave circuit encodes a ripple electronic switching circuit power end, the coding double wave electronic switching circuit power end connection of multicarrier five of the coding double wave circuit of multicarrier five.

Multicarrier five encodes total electronics alteration switch circuit ground end, the multicarrier five that multicarrier five encodes a wave circuit encodes a ripple electronic switching circuit ground terminal, the coding double wave electronic switching circuit ground terminal of multicarrier five of the coding double wave circuit of multicarrier five, is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Two output ends that multicarrier five encodes total electronics alteration switch circuit encode a ripple electronic switching circuit control end with the multicarrier five of one wave circuit of coding of multicarrier five respectively, the multicarrier five of the coding double wave circuit of multicarrier five encodes double wave electronic switching circuit control end and is connected.

Multicarrier five encodes a ripple electronic switching circuit output end and encodes a wave conversion on-off circuit power end with multicarrier five respectively, multicarrier five encodes one yard of electronic switching circuit power end of a ripple, multicarrier five encodes two yards of electronic switching circuit power ends of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of a ripple dicode, and multicarrier five encodes a ripple dicode launching electronics circuit power end and is connected.

Multicarrier five encodes a ripple electronic switching circuit ground terminal, multicarrier five encodes a wave conversion on-off circuit ground terminal, multicarrier five encodes one yard of electronic switching circuit ground terminal of a ripple, multicarrier five encodes two yards of electronic switching circuit ground terminals of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit ground terminal, multicarrier five encodes the code-excited output circuit ground terminal of a ripple dicode, and multicarrier five encodes a ripple dicode launching electronics circuit ground end and is connected with the coding battery power circuit ground wire of multicarrier five.

Multicarrier five encodes two output ends of a wave conversion on-off circuit and encodes one yard of electronic switching circuit control end of a ripple with multicarrier five respectively, and coding one ripple, the two yards of electronic switching circuit control ends of multicarrier five are connected.

Multicarrier five encodes one yard of electronic switching circuit output end of a ripple and encodes one yard of coded electronic circuit power end of a ripple with multicarrier five respectively, and coding one ripple, the one yard of coding output circuit power end of multicarrier five is connected.

Multicarrier five encodes one yard of coded electronic circuit ground end of a ripple, and multicarrier five encodes one yard of coding output circuit ground terminal of a ripple and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes one yard of coded electronic circuit output end of a ripple and is connected with coding one ripple, the one yard of coding output circuit input of multicarrier five, and multicarrier five encodes one yard of coding output circuit output end of a ripple and is connected with the input of the coding one ripple dicode coding OR gate of multicarrier five output circuit one.

Multicarrier five encodes two yards of electronic switching circuit output ends of a ripple and encodes two yards of coded electronic circuit power ends of a ripple with multicarrier five respectively, and coding one ripple, the two yards of coding output circuit power ends of multicarrier five are connected.

Multicarrier five encodes two yards of coded electronic circuit ground ends of a ripple, and multicarrier five encodes two yards of coding output circuit ground terminals of a ripple and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes two yards of coded electronic circuit output ends of a ripple and is connected with coding one ripple, the two yards of coding output circuit inputs of multicarrier five, and multicarrier five encodes two yards of coding output circuit output ends of a ripple and is connected with the input of the coding one ripple dicode coding OR gate of multicarrier five output circuit one.

Multicarrier five encodes ripple dicode coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of one ripple dicode of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of a ripple dicode and is connected with the one ripple dicode launching electronics circuit input end of coding of multicarrier five.

The coding double wave electronic switching circuit output end of multicarrier five of the coding double wave circuit of multicarrier five and the coding double wave electronics alteration switch circuit power of multicarrier five end, multicarrier five encodes three ripple electronic switching circuit power ends, and multicarrier five encodes two ripples, five yards of electronic switching circuit power end connections.

The coding double wave electronic switching circuit ground terminal of multicarrier five of the coding double wave circuit of multicarrier five, the coding double wave electronics alteration switch circuit ground of multicarrier five end, multicarrier five encodes three ripple electronic switching circuit ground terminals, and multicarrier five encodes two ripples, five yards of electronic switching circuit ground terminals and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

The multicarrier five that two output ends of the coding double wave electronics alteration switch circuit of multicarrier five encode three wave circuits with multicarrier five respectively encodes three ripple electronic switching circuit control ends, and the multicarrier five that multicarrier five encodes two wave circuits encodes two ripples, five yards of electronic switching circuit control end connections.

The three ripple electronic switching circuit output ends of the coding of multicarrier five that multicarrier five encodes three wave circuits encode three wave conversion on-off circuit power ends with multicarrier five respectively, multicarrier five encodes three ripple trigram electronic switching circuit power ends, multicarrier five encodes three ripples, four yards of electronic switching circuit power ends, multicarrier five encodes three ripple dicodes coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit power ends and is connected.

Multicarrier five encodes three ripple electronic switching circuit ground terminals, multicarrier five encodes three wave conversion on-off circuit ground terminals, multicarrier five encodes three ripple trigram electronic switching circuit ground terminals, multicarrier five encodes three ripples, four yards of electronic switching circuit ground terminals, multicarrier five encodes three ripple dicodes coding OR gate output circuit ground terminal, multicarrier five encodes the code-excited output circuit ground terminal of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit ground ends and is connected with the coding battery power circuit ground wire of multicarrier five.

Multicarrier five encodes three wave conversion on-off circuits, two output ends and encodes three ripple trigram electronic switching circuit control ends with multicarrier five respectively, and coding three ripples, the four yards of electronic switching circuit control ends of multicarrier five are connected.

Multicarrier five encodes three ripple trigram electronic switching circuit output ends and encodes the three-code encoded electronic circuit power end of three ripples with multicarrier five respectively, and the coding three-code encoded output circuit power end of three ripples of multicarrier five is connected,

Multicarrier five encodes the three-code encoded electronic circuit ground terminal of three ripples, and multicarrier five encodes the three-code encoded output circuit ground terminal of three ripples and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes three ripple trigrams code coded electronic circuit output end and is connected with the coding three-code encoded output circuit input of three ripples of multicarrier five, and multicarrier five encodes the three-code encoded output circuit output end of three ripples and is connected with the input of the coding three ripple dicodes coding OR gate of multicarrier five output circuit one.

Multicarrier five encodes three ripples, four yards of electronic switching circuit output ends and encodes three ripple four code encoding electronic circuit power ends with multicarrier five respectively, and multicarrier five encodes three ripple four code encoding output circuit power ends and is connected.

Multicarrier five encodes three ripple four code encoding electronic circuit ground terminals, and multicarrier five encodes three ripple four code encoding output circuit ground terminals and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes three ripple four code encoding electronic circuit output ends and is connected with the three ripple four code encoding output circuit inputs of coding of multicarrier five, and multicarrier five encodes three ripple four code encoding output circuit output ends and is connected with the input of the coding three ripple dicodes coding OR gate of multicarrier five output circuit one.

Multicarrier five encodes three ripple dicodes coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of three ripple dicodes of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of three ripple dicodes and is connected with the three ripple dicode launching electronics circuit input ends of coding of multicarrier five.

Two ripple of coding of multicarrier five, five yards of electronic switching circuit output ends that multicarrier five encodes two wave circuits encode two ripples, five yards of coded electronic circuit power ends with multicarrier five respectively, multicarrier five encodes two ripples, five yards of coding output circuit power ends, multicarrier five encodes the code-excited output circuit power end of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit power ends and is connected.

Multicarrier five encodes two ripples, five yards of coded electronic circuit ground ends, multicarrier five encodes two ripples, five yards of coding output circuit ground terminals, multicarrier five encodes the code-excited output circuit ground terminal of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit ground ends and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes two ripples, five yards of coded electronic circuit output ends and is connected with coding two ripples, the five yards of coding output circuit inputs of multicarrier five, multicarrier five encodes two ripples, five yards of coding output circuit output ends and is connected with the coding code-excited output circuit input of five yards of two ripple of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of five yards of two ripple and is connected with coding two ripples, the five yards of launching electronics circuit input ends of multicarrier five.

2nd, a kind of encryption safe emitter multicarrier is combined for radio wave with infrared wave and ultrasonic wave.

3rd, a kind of encryption safe emitter five is encoded to regular coding and is combined with regular coding with regular coding with regular coding with rolling coding.

4th, a kind of encryption safe emitter five is encoded to the combination of regular coding and regular coding and regular coding and regular coding and regular coding.

5th, a kind of encryption safe emitter five is encoded to rolling coding and is combined with regular coding with regular coding with rolling coding with regular coding.

6th, a kind of encryption safe emitter five is encoded to as rolling coding is combined with rolling coding with rolling coding with regular coding with regular coding.

Its operation principle is as follows：

A kind of encryption safe emitter encodes battery power circuit by multicarrier five, and the coding button switch circuit of multicarrier five, multicarrier five encodes total electronics alteration switch circuit.

Multicarrier five encodes a wave circuit, the coding double wave circuit composition of multicarrier five.

Multicarrier five encodes a wave circuit and encodes a ripple electronic switching circuit by multicarrier five, multicarrier five encodes a wave conversion on-off circuit, multicarrier five encodes one yard of electronic switching circuit of a ripple, coding one ripple, the one yard of coded electronic circuit of multicarrier five, coding one ripple, the one yard of coding output circuit of multicarrier five；Multicarrier five encodes two yards of electronic switching circuits of a ripple, coding one ripple, the two yards of coded electronic circuits of multicarrier five, coding one ripple, the two yards of coding output circuits of multicarrier five；Multicarrier five encodes ripple dicode coding OR gate output circuit, and multicarrier five encodes a code-excited output circuit of ripple dicode, and multicarrier five encodes ripple dicode launching electronics circuit composition.

Multicarrier five encodes double wave circuit and encodes double wave electronic switching circuit by multicarrier five, and the coding double wave electronics alteration switch circuit of multicarrier five, multicarrier five encodes two wave circuits, and multicarrier five encodes three wave circuits composition.

Multicarrier five encodes two wave circuits and encodes two ripples, five yards of electronic switching circuits by multicarrier five, multicarrier five encodes two ripples, five yards of coded electronic circuits, multicarrier five encodes two ripples, five yards of coding output circuits, multicarrier five encodes two ripples, five yards of code-excited output circuits, and multicarrier five encodes two ripples, five yards of launching electronics circuit compositions.

Multicarrier five encodes three wave circuits and encodes three ripple electronic switching circuits by multicarrier five, and multicarrier five encodes three wave conversion on-off circuits.

Multicarrier five encodes three ripple trigram electronic switching circuits, the coding three-code encoded electronic circuit of three ripples of multicarrier five, the coding three-code encoded output circuit of three ripples of multicarrier five.

Multicarrier five encodes three ripples, four yards of electronic switching circuits, and multicarrier five encodes three ripple four code encoding electronic circuits, and multicarrier five encodes three ripple four code encoding output circuits.

Multicarrier five encodes three ripple dicodes coding OR gate output circuit, and multicarrier five encodes the three code-excited output circuits of ripple dicode, and multicarrier five encodes three ripple dicode launching electronics circuits composition.

The coding button switch circuit on one side connection coding battery power circuit positive pole of multicarrier five of multicarrier five, the coding button switch circuit other end of multicarrier five encodes total electronics alteration switch circuit power end with multicarrier five respectively, the multicarrier five that multicarrier five encodes a wave circuit encodes a ripple electronic switching circuit power end, the coding double wave electronic switching circuit power end connection of multicarrier five of the coding double wave circuit of multicarrier five.

Multicarrier five encodes total electronics alteration switch circuit ground end, the multicarrier five that multicarrier five encodes a wave circuit encodes a ripple electronic switching circuit ground terminal, the coding double wave electronic switching circuit ground terminal of multicarrier five of the coding double wave circuit of multicarrier five, is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Two output ends that multicarrier five encodes total electronics alteration switch circuit encode a ripple electronic switching circuit control end with the multicarrier five of one wave circuit of coding of multicarrier five respectively, the multicarrier five of the coding double wave circuit of multicarrier five encodes double wave electronic switching circuit control end and is connected.

Multicarrier five encodes a ripple electronic switching circuit output end and encodes a wave conversion on-off circuit power end with multicarrier five respectively, multicarrier five encodes one yard of electronic switching circuit power end of a ripple, multicarrier five encodes two yards of electronic switching circuit power ends of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of a ripple dicode, and multicarrier five encodes a ripple dicode launching electronics circuit power end and is connected.

Multicarrier five encodes a ripple electronic switching circuit ground terminal, multicarrier five encodes a wave conversion on-off circuit ground terminal, multicarrier five encodes one yard of electronic switching circuit ground terminal of a ripple, multicarrier five encodes two yards of electronic switching circuit ground terminals of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit ground terminal, multicarrier five encodes the code-excited output circuit ground terminal of a ripple dicode, and multicarrier five encodes a ripple dicode launching electronics circuit ground end and is connected with the coding battery power circuit ground wire of multicarrier five.

Multicarrier five encodes two output ends of a wave conversion on-off circuit and encodes one yard of electronic switching circuit control end of a ripple with multicarrier five respectively, and coding one ripple, the two yards of electronic switching circuit control ends of multicarrier five are connected.

Multicarrier five encodes one yard of electronic switching circuit output end of a ripple and encodes one yard of coded electronic circuit power end of a ripple with multicarrier five respectively, and coding one ripple, the one yard of coding output circuit power end of multicarrier five is connected.

Multicarrier five encodes one yard of coded electronic circuit ground end of a ripple, and multicarrier five encodes one yard of coding output circuit ground terminal of a ripple and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes one yard of coded electronic circuit output end of a ripple and is connected with coding one ripple, the one yard of coding output circuit input of multicarrier five, and multicarrier five encodes one yard of coding output circuit output end of a ripple and is connected with the input of the coding one ripple dicode coding OR gate of multicarrier five output circuit one.

Multicarrier five encodes two yards of electronic switching circuit output ends of a ripple and encodes two yards of coded electronic circuit power ends of a ripple with multicarrier five respectively, and coding one ripple, the two yards of coding output circuit power ends of multicarrier five are connected.

Multicarrier five encodes two yards of coded electronic circuit ground ends of a ripple, and multicarrier five encodes two yards of coding output circuit ground terminals of a ripple and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes two yards of coded electronic circuit output ends of a ripple and is connected with coding one ripple, the two yards of coding output circuit inputs of multicarrier five, and multicarrier five encodes two yards of coding output circuit output ends of a ripple and is connected with the input of the coding one ripple dicode coding OR gate of multicarrier five output circuit one.

Multicarrier five encodes ripple dicode coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of one ripple dicode of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of a ripple dicode and is connected with the one ripple dicode launching electronics circuit input end of coding of multicarrier five.

The coding double wave electronic switching circuit output end of multicarrier five of the coding double wave circuit of multicarrier five and the coding double wave electronics alteration switch circuit power of multicarrier five end, multicarrier five encodes three ripple electronic switching circuit power ends, and multicarrier five encodes two ripples, five yards of electronic switching circuit power end connections.

The coding double wave electronic switching circuit ground terminal of multicarrier five of the coding double wave circuit of multicarrier five, the coding double wave electronics alteration switch circuit ground of multicarrier five end, multicarrier five encodes three ripple electronic switching circuit ground terminals, and multicarrier five encodes two ripples, five yards of electronic switching circuit ground terminals and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

The multicarrier five that two output ends of the coding double wave electronics alteration switch circuit of multicarrier five encode three wave circuits with multicarrier five respectively encodes three ripple electronic switching circuit control ends, and the multicarrier five that multicarrier five encodes two wave circuits encodes two ripples, five yards of electronic switching circuit control end connections.

The three ripple electronic switching circuit output ends of the coding of multicarrier five that multicarrier five encodes three wave circuits encode three wave conversion on-off circuit power ends with multicarrier five respectively, multicarrier five encodes three ripple trigram electronic switching circuit power ends, multicarrier five encodes three ripples, four yards of electronic switching circuit power ends, multicarrier five encodes three ripple dicodes coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit power ends and is connected.

Multicarrier five encodes three ripple electronic switching circuit ground terminals, multicarrier five encodes three wave conversion on-off circuit ground terminals, multicarrier five encodes three ripple trigram electronic switching circuit ground terminals, multicarrier five encodes three ripples, four yards of electronic switching circuit ground terminals, multicarrier five encodes three ripple dicodes coding OR gate output circuit ground terminal, multicarrier five encodes the code-excited output circuit ground terminal of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit ground ends and is connected with the coding battery power circuit ground wire of multicarrier five.

Multicarrier five encodes three wave conversion on-off circuits, two output ends and encodes three ripple trigram electronic switching circuit control ends with multicarrier five respectively, and coding three ripples, the four yards of electronic switching circuit control ends of multicarrier five are connected.

Multicarrier five encodes three ripple trigram electronic switching circuit output ends and encodes the three-code encoded electronic circuit power end of three ripples with multicarrier five respectively, and the coding three-code encoded output circuit power end of three ripples of multicarrier five is connected.

Multicarrier five encodes the three-code encoded electronic circuit ground terminal of three ripples, and multicarrier five encodes the three-code encoded output circuit ground terminal of three ripples and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes three ripple trigrams code coded electronic circuit output end and is connected with the coding three-code encoded output circuit input of three ripples of multicarrier five, and multicarrier five encodes the three-code encoded output circuit output end of three ripples and is connected with the input of the coding three ripple dicodes coding OR gate of multicarrier five output circuit one.

Multicarrier five encodes three ripples, four yards of electronic switching circuit output ends and encodes three ripple four code encoding electronic circuit power ends with multicarrier five respectively, and multicarrier five encodes three ripple four code encoding output circuit power ends and is connected.

Multicarrier five encodes three ripple four code encoding electronic circuit ground terminals, and multicarrier five encodes three ripple four code encoding output circuit ground terminals and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes three ripple four code encoding electronic circuit output ends and is connected with the three ripple four code encoding output circuit inputs of coding of multicarrier five, and multicarrier five encodes three ripple four code encoding output circuit output ends and is connected with the input of the coding three ripple dicodes coding OR gate of multicarrier five output circuit one.

Multicarrier five encodes three ripple dicodes coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of three ripple dicodes of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of three ripple dicodes and is connected with the three ripple dicode launching electronics circuit input ends of coding of multicarrier five.

Two ripple of coding of multicarrier five, five yards of electronic switching circuit output ends that multicarrier five encodes two wave circuits encode two ripples, five yards of coded electronic circuit power ends with multicarrier five respectively, multicarrier five encodes two ripples, five yards of coding output circuit power ends, multicarrier five encodes the code-excited output circuit power end of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit power ends and is connected.

Multicarrier five encodes two ripples, five yards of coded electronic circuit ground ends, multicarrier five encodes two ripples, five yards of coding output circuit ground terminals, multicarrier five encodes the code-excited output circuit ground terminal of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit ground ends and is connected with the coding battery power circuit ground wire of multicarrier five respectively.

Multicarrier five encodes two ripples, five yards of coded electronic circuit output ends and is connected with coding two ripples, the five yards of coding output circuit inputs of multicarrier five, multicarrier five encodes two ripples, five yards of coding output circuit output ends and is connected with the coding code-excited output circuit input of five yards of two ripple of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of five yards of two ripple and is connected with coding two ripples, the five yards of launching electronics circuit input ends of multicarrier five.

So when the multicarrier five for pressing a kind of encryption safe emitter encodes button switch circuit, multicarrier five encodes total electronics alteration switch circuit and switches on power and proceeds by oscillatory work.

The multicarrier five that multicarrier five encodes a wave circuit encodes a ripple electronic switching circuit power end, the coding double wave electronic switching circuit power end of multicarrier five of the coding double wave circuit of multicarrier five switches on power, and start-up operation prepares；When control end has electric signal to be input into, carry out opening or closing task immediately.

Two output ends that multicarrier five encodes total electronics alteration switch circuit encode a ripple electronic switching circuit control end with the multicarrier five of one wave circuit of coding of multicarrier five respectively, the multicarrier five of the coding double wave circuit of multicarrier five encodes double wave electronic switching circuit control end and is connected.

Multicarrier five encodes total electronics alteration switch circuit and switches on power and starts vibration, multicarrier five encode the multicarrier five that two output ends of total electronics alteration switch circuit encode a wave circuit to multicarrier five respectively encode a ripple electronic switching circuit control end, multicarrier five encode two wave circuits the coding double wave electronic switching circuit control end output of multicarrier five it is high each other with it is low or low each other with two different potentials signals high.

When multicarrier five encodes a ripple electronic switching circuit, the control end of the coding double wave electronic switching circuit of multicarrier five for high potential, multicarrier five encodes a ripple electronic switching circuit, the coding double wave electronic switching circuit of multicarrier five and will be opened output voltage, when multicarrier five encodes a ripple electronic switching circuit, the control end of the coding double wave electronic switching circuit of multicarrier five for low potential, multicarrier five encodes a ripple electronic switching circuit, the coding double wave electronic switching circuit of multicarrier five and will be closed, Non voltage output.

When the control end that multicarrier five encodes the one ripple electronic switching circuit of coding of multicarrier five that total electronics alteration switch circuit encodes a wave circuit to multicarrier five exports high potential, multicarrier five encodes a ripple electronic switching circuit and will be opened output voltage.

When the control end that multicarrier five encodes a ripple electronic switching circuit is high potential, it will be low potential that multicarrier five encodes total electronics alteration switch circuit to the electric signal that the coding double wave electronic switching circuit control end of multicarrier five of the coding double wave circuit of multicarrier five is exported, because when multicarrier five encodes total electronics alteration switch circuit normal work, two output end the same time can only export respectively it is high each other with it is low or low each other with two electric potential signals high.

When the control end of the coding double wave electronic switching circuit of multicarrier five is low potential, the coding double wave electronic switching circuit of multicarrier five will be closed, Non voltage output.

When multicarrier five encodes total electronics alteration switch circuit and keeps this state constant, a kind of encryption safe emitter thus opens multicarrier five and encodes the process that a wave circuit begins preparing for launching, while also starting the process that multicarrier five encodes double wave circuit of closing.

Multicarrier five encodes double wave circuit and encodes double wave electronic switching circuit by multicarrier five, and the coding double wave electronics alteration switch circuit of multicarrier five, multicarrier five encodes two wave circuits, and multicarrier five encodes three wave circuits composition；

When the control end of the coding double wave electronic switching circuit of multicarrier five is low potential, the coding double wave electronic switching circuit of multicarrier five will be closed, Non voltage output.

The coding double wave electronic switching circuit output end of multicarrier five of the coding double wave circuit of multicarrier five and the coding double wave electronics alteration switch circuit power of multicarrier five end, multicarrier five encodes three ripple electronic switching circuit power ends, and multicarrier five encodes two ripples, five yards of electronic switching circuit power end connections.

The multicarrier five that two output ends of the coding double wave electronics alteration switch circuit of multicarrier five encode three wave circuits with multicarrier five respectively encodes three ripple electronic switching circuit control ends, and the multicarrier five that multicarrier five encodes two wave circuits encodes two ripples, five yards of electronic switching circuit control end connections.

The three ripple electronic switching circuit output ends of the coding of multicarrier five that multicarrier five encodes three wave circuits encode three wave conversion on-off circuit power ends with multicarrier five respectively, multicarrier five encodes three ripple trigram electronic switching circuit power ends, multicarrier five encodes three ripples, four yards of electronic switching circuit power ends, multicarrier five encodes three ripple dicodes coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit power ends and is connected.

Two ripple of coding of multicarrier five, five yards of electronic switching circuit output ends that multicarrier five encodes two wave circuits encode two ripples, five yards of coded electronic circuit power ends with multicarrier five respectively, multicarrier five encodes two ripples, five yards of coding output circuit power ends, multicarrier five encodes the code-excited output circuit power end of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit power ends and is connected.

When the control end of the coding double wave electronic switching circuit of multicarrier five is low potential, the coding double wave electronic switching circuit of multicarrier five will be closed, Non voltage output；Multicarrier five encodes two wave circuits, and multicarrier five encodes the equal access failure power supply of each circuit in three wave circuits and do not work, so multicarrier five encodes two wave circuits, multicarrier five encodes the equal no signal of three wave circuits to emission.

When the multicarrier five that multicarrier five encodes a wave circuit encodes the control end of a ripple electronic switching circuit for high potential, multicarrier five encodes a ripple electronic switching circuit and will be opened output voltage.

Multicarrier five encodes a ripple electronic switching circuit output end and encodes a wave conversion electronic switching circuit power end with multicarrier five respectively, multicarrier five encodes one yard of electronic switching circuit power end of a ripple, multicarrier five encodes two yards of electronic switching circuit power ends of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of a ripple dicode, and multicarrier five encodes a ripple dicode launching electronics circuit power end and is connected.

Multicarrier five encodes one yard of electronic switching circuit power end of a ripple, multicarrier five encodes two yards of electronic switching circuit power ends of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of a ripple dicode, and one ripple dicode launching electronics circuit power end of the coding of multicarrier five switches on power and performs Job readiness.

The one wave conversion electronic switching circuit power end of coding of multicarrier five switches on power and proceeds by oscillatory work, multicarrier five encodes a wave conversion electronic switching circuit and starts vibration, multicarrier five encodes two output ends of a wave conversion electronic switching circuit, within the same time, respectively outwards output it is high each other with it is low or low each other with two different potentials signals high.

Multicarrier five encodes two output ends of a wave conversion electronic switching circuit and encodes one yard of electronic switching circuit control end of a ripple with multicarrier five respectively, and coding one ripple, the two yards of electronic switching circuit control ends of multicarrier five are connected.

When multicarrier five encodes a wave conversion electronic switching circuit output end to one ripple of the coding of multicarrier five, one yard of electronic switching circuit control end output high potential, coding one ripple, the one yard of electronic switching circuit of multicarrier five will be opened output voltage.

Now, multicarrier five encode a wave conversion electronic switching circuit output end to multicarrier five encode electric signals that two yards of electronic switching circuit control ends of a ripple export will for low potential when, multicarrier five encodes two yards of electronic switching circuits of a ripple and will be closed Non voltage output.

Multicarrier five encodes a wave conversion electronic switching circuit when keeping this state constant, a kind of encryption safe emitter is so switched on multicarrier five and encodes one yard of emission process of transmitting of a ripple, and two yards of closing process of transmitting of a ripple are encoded while also starting and closing multicarrier five.

When multicarrier five encodes two yards of electronic switching circuit control ends of a ripple for low potential, coding one ripple, the two yards of electronic switching circuits of multicarrier five will be closed Non voltage output.

Multicarrier five encodes two yards of electronic switching circuit output ends of a ripple and encodes two yards of coding circuit power ends of a ripple with multicarrier five respectively, and coding one ripple, the two yards of coding output circuit power ends of multicarrier five are connected.

Multicarrier five encodes two yards of coding circuit power ends of a ripple, multicarrier five encodes two yards of coding output circuit power ends of a ripple because access failure power supply does not work, so coding one ripple, the two yards of coding circuits of multicarrier five do not carry out coding work, also without the output of four yard one of three ripple, two yards of ripple encoded signal, multicarrier five encodes a ripple dicode launching electronics circuit also without four yard one of three ripple, two yards of the ripple transmitting of encoded signal.

When multicarrier five encodes one yard of electronic switching circuit control end of a ripple for high potential, coding one ripple, the one yard of electronic switching circuit of multicarrier five will be opened output voltage.

Multicarrier five encodes one yard of electronic switching circuit output end of a ripple and encodes one yard of coding circuit power end of a ripple with multicarrier five respectively, and coding one ripple, the one yard of coding output circuit power end of multicarrier five is connected.

Multicarrier five encodes one yard of coding circuit power end of a ripple, and coding one ripple, the one yard of coding output circuit power end of multicarrier five is started working after switching on power, and coding one ripple, the one yard of coding circuit of multicarrier five proceeds by coding work.

Multicarrier five encodes one yard of coding circuit output end of a ripple and is connected with coding one ripple, the one yard of coding output circuit input of multicarrier five, and multicarrier five encodes one yard of coding output circuit output end of a ripple and is connected with the input of the coding one ripple dicode coding OR gate of multicarrier five output circuit one.

The multicarrier five that coding one ripple, the one yard of coding circuit of multicarrier five will be finished encodes one yard of encoded signal of a ripple, coding one ripple, the one yard of coding output circuit of multicarrier five is passed to, coding one ripple, the one yard of coding output circuit of multicarrier five passes to multicarrier five and encodes ripple dicode coding OR gate output circuit again.

Multicarrier five encodes ripple dicode coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of one ripple dicode of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of a ripple dicode and is connected with the one ripple dicode launching electronics circuit input end of coding of multicarrier five.

Coding one ripple, one yard of encoded signal of multicarrier five that coding one ripple, the one yard of coding circuit of multicarrier five is finished is exported through the coding one ripple dicode coding OR gate output circuit of multicarrier five and encodes a code-excited output circuit of ripple dicode to multicarrier five, after three four yard one of ripple, one yard of ripple encoded signals enter row energization through the one code-excited output circuit of ripple dicode of coding of multicarrier five, pass to multicarrier five and encode a ripple dicode launching electronics circuit to coding one ripple, the one yard of encoded signal of emission multicarrier five.

Such a encryption safe emitter just outwards completes the transmitting work that multicarrier five encodes one yard of a ripple.

Multicarrier five encodes that total electronics alteration switch circuit is constant in the original state for keeping, i.e., it is still high potential that multicarrier five encodes a ripple electronic switching circuit control end, and the coding of multicarrier five double wave electronic switching circuit control end is still in the case of low potential.

Multicarrier five encodes a wave conversion electronic switching circuit and overturns, multicarrier five encodes a wave conversion electronic switching circuit and is changed into high potential by low potential to the electric signals that coding one ripple, the two yards of electronic switching circuit control ends of multicarrier five are exported, and coding one ripple, the two yards of electronic switching circuits of multicarrier five will be opened output voltage.

When the one wave conversion electronic switching circuit of coding of multicarrier five is changed into low potential to the electric signal that multicarrier five encodes one yard of electronic switching circuit control end of ripple by high potential, coding one ripple, the one yard of electronic switching circuit of multicarrier five will close Non voltage output.

Such a encryption safe emitter is switched on multicarrier five and encodes two yards of processes of transmitting of a ripple, and one yard of process of transmitting of a ripple is encoded while also starting and closing multicarrier five.

Multicarrier five encodes one yard of electric signal of electronic switching circuit control end of a ripple and is changed into low potential by high potential, and coding one ripple, the one yard of electronic switching circuit of multicarrier five will close Non voltage output.

Multicarrier five encodes one yard of electronic switching circuit output end of a ripple and encodes one yard of coding circuit power end of a ripple with multicarrier five respectively, and coding one ripple, the one yard of coding output circuit power end of multicarrier five is connected.

Multicarrier five encodes one yard of coding circuit power end of a ripple, multicarrier five encodes one yard of coding output circuit power end of a ripple because access failure power supply does not work, so coding one ripple, the one yard of coding circuit of multicarrier five does not carry out coding work, also one yard of encoded signal output of a ripple is encoded without multicarrier five, multicarrier five encodes a ripple dicode launching electronics circuit also without coding one ripple, the one yard of encoded signal of multicarrier five to emission.

When multicarrier five encodes two yards of electronic switching circuit control ends of a ripple for high potential, coding one ripple, the two yards of electronic switching circuits of multicarrier five will be opened output voltage.

Multicarrier five encodes two yards of electronic switching circuit output ends of a ripple and encodes two yards of coding circuit power ends of a ripple with multicarrier five respectively, and coding one ripple, the two yards of coding output circuit power ends of multicarrier five are connected.

Multicarrier five encodes two yards of coding circuit power ends of a ripple, and coding one ripple, the two yards of coding output circuit power ends of multicarrier five are started working after switching on power, and coding one ripple, the two yards of coding circuits of multicarrier five proceed by four yard one of three ripple, two yards of the ripple coding of encoded signal.

Multicarrier five encodes two yards of coding circuit output ends of a ripple and is connected with coding one ripple, the two yards of coding output circuit inputs of multicarrier five, and multicarrier five encodes two yards of coding output circuit output ends of a ripple and is connected with the input of the coding one ripple dicode coding OR gate of multicarrier five output circuit one.

The multicarrier five that coding one ripple, the two yards of coding circuits of multicarrier five will be finished encodes two yards of encoded signals of a ripple, coding one ripple, the two yards of coding output circuits of multicarrier five are passed to, coding one ripple, the two yards of coding output circuits of multicarrier five pass to multicarrier five and encode ripple dicode coding OR gate output circuit again.

Multicarrier five encodes ripple dicode coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of one ripple dicode of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of a ripple dicode and is connected with the one ripple dicode launching electronics circuit input end of coding of multicarrier five.

The coding multicarrier five that will finish of one ripple, two yards of coding circuits of multicarrier five encodes two yards of encoded signals of a ripple and encodes ripple dicode coding OR gate output circuit through multicarrier five and export and encodes a code-excited output circuit of ripple dicode to multicarrier five, and multicarrier five encodes a code-excited output circuit of ripple dicode and enters after row energization to pass to multicarrier five and encodes a ripple dicode launching electronics circuit and encode two yards of encoded signals of a ripple to emission multicarrier five.

Such a encryption safe emitter is just completed and encodes two yards of encoded signals work of a ripple to emission multicarrier five；Also the transmitting work that multicarrier five encodes a wave circuit is completed.

Now multicarrier five encodes the state of total electronics alteration switch circuit and there occurs change, overturn, when the electric signal that multicarrier five encodes the control end output that total electronics alteration switch circuit output end encodes a ripple electronic switching circuit to multicarrier five is reduced to low potential by high potential, multicarrier five encodes a ripple electronic switching circuit and will be closed, Non voltage output.

When the control end that multicarrier five encodes a ripple electronic switching circuit is low potential, multicarrier five encodes total electronics alteration switch circuit output end will switch to high potential to the electric signal that the control end of the coding double wave electronic switching circuit of multicarrier five is exported by low potential, when the control end of the coding double wave electronic switching circuit of multicarrier five is high potential, three ripple trigram double wave electronic switching circuits will be opened output voltage.

Such a encryption safe emitter has been switched on the coding double wave circuit of multicarrier five and has opened the process of preparation, while also starting the process that multicarrier five encodes a wave circuit of closing.

When the electric signal of the control end output that the multicarrier five that multicarrier five encodes a wave circuit encodes a ripple electronic switching circuit is reduced to low potential by high potential, multicarrier five encodes a ripple electronic switching circuit and will be closed, Non voltage output.

Multicarrier five encodes a ripple electronic switching circuit output end and encodes a wave conversion on-off circuit power end with multicarrier five respectively, multicarrier five encodes one yard of electronic switching circuit power end of a ripple, multicarrier five encodes two yards of electronic switching circuit power ends of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of a ripple dicode, and multicarrier five encodes a ripple dicode launching electronics circuit power end and is connected.

Multicarrier five encodes one yard of electronic switching circuit output end of a ripple and encodes one yard of coded electronic circuit power end of a ripple with multicarrier five respectively, and coding one ripple, the one yard of coding output circuit power end of multicarrier five is connected；Multicarrier five encodes two yards of electronic switching circuit output ends of a ripple and encodes two yards of coded electronic circuit power ends of a ripple with multicarrier five respectively, and coding one ripple, the two yards of coding output circuit power ends of multicarrier five are connected.

The one ripple electronic switching circuit of coding of multicarrier five that multicarrier five encodes a wave circuit will be closed, Non voltage output；The equal access failure power supply of each circuit that multicarrier five is encoded in a wave circuit does not work, and multicarrier five encodes a wave circuit without any signal to emission.

When the control end of the coding double wave electronic switching circuit of multicarrier five of the coding double wave circuit of multicarrier five is high potential, the coding double wave electronic switching circuit of multicarrier five will be opened output voltage.

The coding double wave electronic switching circuit of multicarrier five output end of the coding double wave circuit of multicarrier five encodes double wave conversion electron on-off circuit power end with multicarrier five respectively, multicarrier five encodes three ripple electronic switching circuit power ends, and coding two ripples, the five yards of electronic switching circuit power ends of multicarrier five are connected.

Multicarrier five encodes three ripple electronic switching circuit power ends, and coding two ripples, the five yards of electronic switching circuit power ends of multicarrier five switch on power and perform Job readiness.

The coding double wave conversion electron on-off circuit power end of multicarrier five switches on power and proceeds by vibration, multicarrier five encode two output ends of double wave conversion electron on-off circuit respectively to exported in the external same time it is high each other with it is low or low each other with two different potentials signals high.

Two output ends of the coding double wave conversion electron on-off circuit of multicarrier five encode three ripple electronic switching circuit control ends with multicarrier five respectively, and coding two ripples, the five yards of electronic switching circuit control ends of multicarrier five are connected.

When the coding double wave conversion electron switching circuitry output of multicarrier five encodes three ripple electronic switching circuit control ends for high potential to multicarrier five, multicarrier five encodes three ripple electronic switching circuits and will be opened output voltage；

Now, the coding double wave conversion electron switching circuitry output of multicarrier five will be low potential to the electric signal that multicarrier five encodes two ripples, five yards of electronic switching circuit control ends outputs, and coding two ripples, the five yards of electronic switching circuits of multicarrier five will be closed Non voltage output.

The multicarrier five that such a encryption safe emitter has been switched on the coding double wave circuit of multicarrier five encodes the process that three wave circuits start to launch, while the multicarrier five for also starting the closing coding double wave circuit of multicarrier five encodes the emission process of two wave circuits.

Coding two ripples, five yards of electric signals of electronic switching circuit control end of multicarrier five of the coding double wave circuit of multicarrier five will be low potential, and coding two ripples, the five yards of electronic switching circuits of multicarrier five will be closed Non voltage output.

Two ripple of coding of multicarrier five, five yards of electronic switching circuit output ends that multicarrier five encodes two wave circuits encode two ripples, five yards of coded electronic circuit power ends with multicarrier five respectively, multicarrier five encodes two ripples, five yards of coding output circuit power ends, multicarrier five encodes the code-excited output circuit power end of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit power ends and is connected；The non-power supply of each circuit that multicarrier five is encoded in two wave circuits does not work, so multicarrier five encodes two wave circuits and encodes two ripples, five yards of electronic signals to emission without multicarrier five.

When the multicarrier five of the coding double wave circuit of multicarrier five encodes three ripple electronic switching circuit control ends for high potential, multicarrier five encodes three ripple electronic switching circuits and will be opened output voltage.

Multicarrier five encodes three ripple electronic switching circuit output ends and encodes three wave conversion electronic switching circuit power ends with multicarrier five respectively, multicarrier five encodes three ripples, four yards of electronic switching circuit power ends, multicarrier five encodes three ripple trigram electronic switching circuit power ends, multicarrier five encodes three ripple dicodes coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit power ends and is connected.

Multicarrier five encodes three ripples, four yards of electronic switching circuit power ends, multicarrier five encodes three ripple trigram electronic switching circuit power ends, multicarrier five encodes three ripple dicodes coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of three ripple dicodes, and three ripple dicode launching electronics circuit power ends of the coding of multicarrier five switch on power and perform Job readiness.

The three wave conversion electronic switching circuit power ends of coding of multicarrier five switch on power and proceed by oscillatory work, multicarrier five encodes three wave conversion electronic switching circuits and starts vibration, multicarrier five encodes two output ends of three wave conversion electronic switching circuits, within the same time, respectively outwards output it is high each other with it is low or low each other with two different potentials signals high.

Multicarrier five encodes three wave conversion electronic switching circuits, two output ends and encodes three ripples, four yards of electronic switching circuit control ends with multicarrier five respectively, and multicarrier five encodes three ripple trigram electronic switching circuit control ends and is connected.

When multicarrier five encodes three wave conversion electronic switching circuit output ends to three ripple of the coding of multicarrier five, four yards of electronic switching circuit control ends output high potentials, coding three ripples, the four yards of electronic switching circuits of multicarrier five will be opened output voltage.

Now, multicarrier five encode three wave conversion electronic switching circuit output ends to multicarrier five encode three ripple trigram electronic switching circuit control ends export electric signal will for low potential when, multicarrier five coding three ripple trigram electronic switching circuits will be closed Non voltage output.

Multicarrier five encodes three wave conversion electronic switching circuits when keeping this state constant, a kind of encryption safe emitter is so switched on multicarrier five and encodes three ripples, four yards of emission process of transmitting, while also start closing the closing process that multicarrier five encodes the transmitting of three ripple trigrams.

When multicarrier five encodes three ripple trigram electronic switching circuit control ends for low potential, multicarrier five encodes three ripple trigram electronic switching circuits and will be closed Non voltage output.

Multicarrier five encodes three ripple trigram electronic switching circuit output ends and encodes the three-code encoded circuit power end of three ripples with multicarrier five respectively, and the coding three-code encoded output circuit power end of three ripples of multicarrier five is connected.

Multicarrier five encodes the three-code encoded circuit power end of three ripples, multicarrier five encodes the three-code encoded output circuit power end of three ripples because access failure power supply does not work, so the coding three-code encoded circuit of three ripples of multicarrier five does not carry out coding work, also the three-code encoded signal output of three ripples is encoded without multicarrier five, multicarrier five encodes the transmitting that three ripple dicode launching electronics circuits also encode the three-code encoded signal of three ripples without multicarrier five.

When multicarrier five encodes three ripples, four yards of electronic switching circuit control ends for high potential, coding three ripples, the four yards of electronic switching circuits of multicarrier five will be opened output voltage.

Multicarrier five encodes three ripples, four yards of electronic switching circuit output ends and encodes three ripple four code encoding circuit power ends with multicarrier five respectively, and multicarrier five encodes three ripple four code encoding output circuit power ends and is connected.

Multicarrier five encodes three ripple four code encoding circuit power ends, and multicarrier five is encoded after three ripple four code encoding output circuit power ends switch on power and started working, and multicarrier five encodes three ripple four code encoding circuits and proceeds by coding work.

Multicarrier five encodes three ripple four code encoding circuit output ends and is connected with the three ripple four code encoding output circuit inputs of coding of multicarrier five, and multicarrier five encodes three ripple four code encoding output circuit output ends and is connected with the input of the coding three ripple dicodes coding OR gate of multicarrier five output circuit one.

The multicarrier five that the three ripple four code encoding circuits of coding of multicarrier five will be finished encodes three ripple four code encoding signals, pass to multicarrier five and encode three ripple four code encoding output circuits, multicarrier five encodes three ripple four code encoding output circuits and passes to the coding three ripple dicodes coding OR gate output circuit of multicarrier five again.

Multicarrier five encodes three ripple dicodes coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of three ripple dicodes of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of three ripple dicodes and is connected with the three ripple dicode launching electronics circuit input ends of coding of multicarrier five.

The three ripple four code encoding signals of coding of multicarrier five that the three ripple four code encoding circuits of coding of multicarrier five are finished are exported through the coding three ripple dicodes coding OR gate output circuit of multicarrier five and encode the three code-excited output circuits of ripple dicode to multicarrier five, after the three ripple four code encoding signals of coding of multicarrier five enter row energization through the three code-excited output circuits of ripple dicode of coding of multicarrier five, pass to multicarrier five and encode three ripple dicode launching electronics circuits to the three ripple four code encoding signals of coding of emission multicarrier five.

Such a encryption safe emitter just outwards completes the transmitting work that multicarrier five encodes four yards of three ripple.

The original state for encoding total electronics alteration switch circuit in holding multicarrier five is constant,I.e. the coding double wave electronic switching circuit of multicarrier five control end is still high potential,It is still low potential that multicarrier five encodes a ripple electronic switching circuit control end,Multicarrier five encodes double wave conversion electron on-off circuit and exports high potential to the control end that multicarrier five encodes three ripple electronic switching circuits,When being output as low potential to coding two ripples, the five yards of electronic switching circuit control ends of multicarrier five,Coding two ripples, the five yards of electronic switching circuits of multicarrier five will be closed,In the case of Non voltage output,Multicarrier five encodes three wave conversion electronic switching circuits and overturns,Multicarrier five encodes three wave conversion electronic switching circuits and is changed into high potential by low potential to the electric signal that multicarrier five encodes the output of three ripple trigram electronic switching circuit control ends,Multicarrier five encodes three ripple trigram electronic switching circuits and will be opened,By output voltage.

When the three wave conversion electronic switching circuits of coding of multicarrier five are changed into low potential to the electric signal that multicarrier five encodes three ripples, four yards of electronic switching circuit control ends outputs by high potential, coding three ripples, the four yards of electronic switching circuits of multicarrier five will close Non voltage output.

Such a encryption safe emitter is switched on multicarrier five and encodes the process that three ripple trigrams start to launch, and three ripples, four yards of closing process of transmitting are encoded while also starting and closing multicarrier five.

When multicarrier five encodes three ripples, four yards of electronic switching circuit control ends for low potential, coding three ripples, the four yards of electronic switching circuits of multicarrier five will be closed Non voltage output.

Multicarrier five encodes three ripples, four yards of electronic switching circuit output ends and encodes three ripple four code encoding circuit power ends with multicarrier five respectively, and multicarrier five encodes three ripple four code encoding output circuit power ends and is connected.

Multicarrier five encodes three ripple four code encoding circuit power ends, multicarrier five encodes three ripple four code encoding output circuit power ends because access failure power supply does not work, so multicarrier five encodes three ripple four code encoding circuits and does not carry out coding work, also three ripple four code encoding signal outputs are encoded without multicarrier five, multicarrier five encodes three ripple dicode launching electronics circuits also without the three ripple four code encoding signals of coding of multicarrier five to emission.

When multicarrier five encodes three ripple trigram electronic switching circuit control ends for high potential, multicarrier five encodes three ripple trigram electronic switching circuits and will be opened output voltage.

Multicarrier five encodes three ripple trigram electronic switching circuit output ends and encodes the three-code encoded circuit power end of three ripples with multicarrier five respectively, and the coding three-code encoded output circuit power end of three ripples of multicarrier five is connected.

Multicarrier five encodes the three-code encoded circuit power end of three ripples, the coding three-code encoded output circuit power end of three ripples of multicarrier five is started working after switching on power, and the coding three-code encoded circuit of three ripples of multicarrier five proceeds by the coding that multicarrier five encodes the three-code encoded signal of three ripples.

Multicarrier five encodes the three-code encoded circuit output end of three ripples and is connected with the coding three-code encoded output circuit input of three ripples of multicarrier five, and multicarrier five encodes the three-code encoded output circuit output end of three ripples and is connected with the input of the coding three ripple dicodes coding OR gate of multicarrier five output circuit one.

The multicarrier five that the coding three-code encoded circuit of three ripples of multicarrier five will be finished encodes the three-code encoded signal of three ripples, the coding three-code encoded output circuit of three ripples of multicarrier five is passed to, the coding three-code encoded output circuit of three ripples of multicarrier five passes to multicarrier five and encodes three ripple dicodes coding OR gate output circuit again.

Multicarrier five encodes three ripple dicodes coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of three ripple dicodes of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of three ripple dicodes and is connected with the three ripple dicode launching electronics circuit input ends of coding of multicarrier five.

The coding multicarrier five that will finish of the three-code encoded circuit of three ripples of multicarrier five encodes the three-code encoded signal of three ripples and encodes three ripple dicodes coding OR gate output circuit through multicarrier five and export and encodes the three code-excited output circuits of ripple dicode to multicarrier five, and multicarrier five encodes the three code-excited output circuits of ripple dicode and enters after row energization to pass to multicarrier five and encodes three ripple dicode launching electronics circuits and encode the three-code encoded signal of three ripples to emission multicarrier five.

Such a encryption safe emitter is just completed and encodes the three-code encoded signal work of three ripples to emission multicarrier five.

When multicarrier five encodes total electronics alteration switch circuit exports high potential to the control end of the coding double wave electronic switching circuit of multicarrier five, the one ripple electronic switching circuit of coding of multicarrier five will be opened when keeping this state constant output voltage；Now, the state of the coding double wave electronics alteration switch circuit of multicarrier five there occurs change, overturn, when now the coding double wave electronics alteration switch circuit output end of multicarrier five is reduced to low potential to the electric signal that the control end that multicarrier five encodes three ripple electronic switching circuits is exported by high potential, multicarrier five encodes three ripple electronic switching circuits and will be closed, Non voltage output.

The coding double wave electronics alteration switch circuit output end of multicarrier five will switch to high potential to the electric signal that the control end of coding two ripples, the five yards of electronic switching circuits of multicarrier five is exported by low potential when the control end that multicarrier five encodes three ripple electronic switching circuits is low potential, when multicarrier five encodes two ripples, five yards of control ends of electronic switching circuit for high potential, coding two ripples, the five yards of electronic switching circuits of multicarrier five will be opened output voltage.

Such a encryption safe emitter has been switched on multicarrier five and has encoded two ripples, five yards of processes of electronic switching circuits opening preparation, while also starting the process that multicarrier five encodes the transmitting of three wave circuits of closing.

When multicarrier five encodes two ripples, five yards of electronic switching circuit control ends for high potential, coding two ripples, the five yards of electronic switching circuits of multicarrier five will be opened, and will have voltage output.

Multicarrier five encodes two ripples, five yards of electronic switching circuit output ends and encodes two ripples, five yards of coded electronic circuit power ends with multicarrier five respectively, multicarrier five encodes two ripples, five yards of coding output circuit power ends, multicarrier five encodes the code-excited output circuit power end of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit power ends and is connected.

Multicarrier five encodes two ripples, five yards of coded electronic circuit power ends, multicarrier five encodes two ripples, five yards of coding output circuit power ends, multicarrier five encodes the code-excited output circuit power end of five yards of two ripple, three four yard two of ripple, five yards of ripple launching electronics circuit power ends are started working after switching on power, and coding two ripples, the five yards of coded electronic circuits of multicarrier five proceed by coding.

Multicarrier five encodes two ripples, five yards of coded electronic circuit output ends and is connected with coding two ripples, the five yards of coding output circuit inputs of multicarrier five, multicarrier five encodes two ripples, five yards of coding output circuit output ends and is connected with the coding code-excited output circuit input of five yards of two ripple of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of five yards of two ripple and is connected with coding two ripples, the five yards of launching electronics circuit input ends of multicarrier five.

The multicarrier five that coding two ripples, the five yards of coded electronic circuits of multicarrier five will be finished encodes two ripples, five yards of encoded signals, pass to coding two ripples, the five yards of coding output circuits of multicarrier five, coding two ripples, the five yards of coding output circuits of multicarrier five pass to coding two ripples, the five yards of code-excited output circuits of multicarrier five again, and coding two ripples, the five yards of code-excited output circuits of multicarrier five pass to coding two ripples, the five yards of launching electronics circuits of multicarrier five to coding two ripples, the five yards of encoded signals of emission multicarrier five after entering row energization.

When multicarrier five encodes three ripple electronic switching circuit control ends for low potential, multicarrier five encodes three ripple electronic switching circuits and will be closed Non voltage output.

Multicarrier five encodes three ripple electronic switching circuit output ends and encodes three wave conversion electronic switching circuit power ends with multicarrier five respectively, multicarrier five encodes three ripples, four yards of electronic switching circuit power ends, multicarrier five encodes three ripple trigram electronic switching circuit power ends, multicarrier five encodes three ripple dicodes coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit power ends and is connected.

Multicarrier five encodes three ripple trigram electronic switching circuit output ends and encodes the three-code encoded circuit power end of three ripples with multicarrier five, and the coding three-code encoded output circuit power end of three ripples of multicarrier five is connected.

Multicarrier five encodes three ripples, four yards of electronic switching circuit output ends and encodes three ripple four code encoding circuit power ends with multicarrier five, and multicarrier five encodes two ripple four code encoding output circuit power ends and is connected.

When multicarrier five encodes three ripple electronic switching circuit control ends for low potential, multicarrier five encodes three ripple electronic switching circuits and will be closed Non voltage output.

Multicarrier five encodes three wave conversion electronic switching circuit power ends, multicarrier five encodes three ripples, four yards of electronic switching circuit power ends, multicarrier five encodes three ripple trigram electronic switching circuit power ends, multicarrier five encodes three ripple dicodes coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit power ends.

Multicarrier five encodes three ripple trigram electronic switching circuit output ends and encodes the three-code encoded circuit power end of three ripples, the coding three-code encoded output circuit power end of three ripples of multicarrier five with multicarrier five.

Multicarrier five encodes three ripples, four yards of electronic switching circuit output ends and encodes three ripple four code encoding circuit power ends with multicarrier five, multicarrier five encodes the two ripple equal access failure power supplys of four code encoding output circuit power end and does not work, so the coding three-code encoded circuit of three ripples of multicarrier five, multicarrier five encodes three ripple four code encoding circuits and does not carry out coding work, also the three-code encoded signal of three ripples is encoded without multicarrier five, multicarrier five encodes three ripple four code encoding signal outputs.

Multicarrier five encodes three ripple dicode launching electronics circuits and also encodes the three-code encoded signal of three ripples without multicarrier five, and multicarrier five encodes three ripple four code encoding signals to emission.Multicarrier five encodes three ripple dicode launching electronics circuit access failure power supplys and can not carry out launch mission.

Such a encryption safe emitter just completes the work that five yards of two ripple is encoded to emission multicarrier five.A kind of encryption safe emitter also just completes the transmitting work that multicarrier five encodes double wave circuit.

Thus a kind of encryption safe emitter outwards completes a kind of emission process of the coding a cycle of multicarrier five in encryption safe emitter.

Because multicarrier five encodes total electronics alteration switch circuit oscillation alternation in a kind of encryption safe emitter, and its cycle is most long；It is that the control end that multicarrier five encodes a ripple electronic switching circuit is high potential to keep a state at it, multicarrier five coding double wave electronic switching circuit control end for low potential it is constant in the case of, because multicarrier five encodes wave conversion contactor vibration alternation, and they complete one yard of one ripple of coding of multicarrier five with the cooperation of other circuits and multicarrier five encodes the transmitting work of two yards of a ripple.

When the state that multicarrier five encodes total electronics alteration switch circuit there occurs change, overturn, when now the control end of one ripple electronic switching circuit of the coding of multicarrier five is reduced to low potential by high potential, multicarrier five encodes a ripple electronic switching circuit and will be closed, Non voltage output.

When the control end of the coding double wave electronic switching circuit of multicarrier five switchs to high potential by low potential, the coding double wave electronic switching circuit of multicarrier five will be opened, by output voltage.

When multicarrier five encodes total electronics alteration switch circuit and keeps this state constant, when the control end of the coding double wave electronic switching circuit of multicarrier five is high potential, the coding double wave electronic switching circuit of multicarrier five will be opened, by output voltage.

Start to vibrate alternation because the coding double wave translation circuit Switching Power Supply of multicarrier five switches on power, open the transmitting work that multicarrier five encodes three wave circuits and five yards of two ripple of coding of multicarrier five, when multicarrier five coding double wave conversion electron on-off circuit to, multicarrier five encodes double wave conversion electron on-off circuit and exports high potential to the control end that multicarrier five encodes three ripple electronic switching circuits, when being output as low potential to coding two ripples, the five yards of electronic switching circuit control ends of multicarrier five, coding two ripples, the five yards of electronic switching circuits of multicarrier five will be closed, in the case of Non voltage output.

Multicarrier five encodes the vibration alternation of three wave conversion electronic switching circuits, and cooperations of they and other circuits completes multicarrier five and encode the multicarrier five of three wave circuits and encode the transmitting work of three ripple trigrams and four yards of three ripple of coding of multicarrier five.

Multicarrier five encodes total electronics alteration switch circuit and keeps, and when the control end of the coding double wave electronic switching circuit of multicarrier five is high potential, the coding double wave electronic switching circuit of multicarrier five will be opened, by output voltage this state it is constant when.

The coding double wave conversion electron on-off circuit of multicarrier five overturns, multicarrier five encodes double wave conversion electron on-off circuit and is changed into low potential by high potential to the electric signal that multicarrier five encodes the output of three ripple electronic switching circuit control ends, multicarrier five encodes three ripple electronic switching circuits and will be closed, Non voltage output.

When encoding two ripples, five yards of electronic switching circuit control ends for high potential to multicarrier five, coding two ripples, the five yards of electronic switching circuits of multicarrier five will be opened, and will have voltage output；Two ripple of coding of multicarrier five, five yards of electronic switching circuit output ends that multicarrier five encodes two wave circuits encode two ripples, five yards of coded electronic circuit power ends with multicarrier five respectively, multicarrier five encodes two ripples, five yards of coding output circuit power ends, multicarrier five encodes the code-excited output circuit power end of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit power ends and is connected；Multicarrier five encodes the transmitting work that completion multicarrier five is encoded two wave circuits five yards of two ripple.

A kind of encryption safe emitter completes the coding a cycle work of multicarrier five like this, when the coding button switch circuit of multicarrier five is always on, a kind of encryption safe emitter is by another cycle, the coded excitation of multicarrier five that carries out in another cycle works, untill the coding button switch circuit of multicarrier five is decontroled.

The present invention has following outstanding advantages after implementing：

1, a kind of encryption safe emitter also has the anti-ability of cracking very high, one is that its carrier wave is radio wave and the combination of infrared wave and ultrasonic wave, two is to work as the combination that it encoded or be regular coding and regular coding and regular coding and regular coding and regular coding, or for regular coding is combined with regular coding with rolling coding with regular coding with regular coding, or for rolling coding is combined with regular coding with rolling coding with regular coding with regular coding, for rolling coding and regular coding and rolling coding and rolling coding and regular coding etc. various changes combination, optimum efficiency can be played.So as to abundant transmitting coding techniques.There is the change of a variety of forms due to a kind of encryption safe emitter, and each version all has great importance, operate has very big competitiveness well in market competition.

2nd, central controlled lock is automatically switched off after a kind of encryption safe emitter and can shut whole car doors, and warning system automatic throw-in device is used cooperatively, and convenient, modern sense is strong.Automotive safety coefficient is effectively raised, the criminal offence using interference unit, decoder etc crime one's share of expenses for a joint undertaking is prevented, is that car owner reduces unnecessary economic loss.

3rd, a kind of encryption safe emitter is arranged on a launch-box, easy to use.

4th, a kind of encryption safe emitter is simple, easily produce installation, stable and reliable for performance.

Brief description of the drawings

Fig. 1 is a kind of encryption safe emitter frame principle figure.

In figure：Square frame 100, the expression coding battery power circuit of multicarrier five；Square frame 200, the expression coding button switch circuit of multicarrier five；Square frame 300, expression multicarrier five encode total electronics alteration switch circuit；Square frame 400, expression multicarrier five encode a wave circuit, and square frame 4, expression multicarrier five encode a ripple electronic switching circuit；Square frame 5, expression multicarrier five encode a wave conversion on-off circuit；Square frame 6, expression coding one ripple, one yard of electronic switching circuit of multicarrier five；Square frame 7, expression coding one ripple, one yard of coded electronic circuit of multicarrier five；Square frame 8, expression coding one ripple, one yard of coding output circuit of multicarrier five；Square frame 9, expression coding one ripple, two yards of electronic switching circuits of multicarrier five；Square frame 10, expression coding one ripple, two yards of coded electronic circuits of multicarrier five；Square frame 11, expression coding one ripple, two yards of coding output circuits of multicarrier five；Square frame 12, expression multicarrier five encode ripple dicode coding OR gate output circuit；Square frame 13, expression multicarrier five encode a code-excited output circuit of ripple dicode；Square frame 14, expression multicarrier five encode a ripple dicode launching electronics circuit；Square frame 500, expression, the coding double wave circuit of multicarrier five, square frame 501, the expression coding double wave electronic switching circuit of multicarrier five；Square frame 502, the expression coding double wave electronics alteration switch circuit of multicarrier five, square frame 503, expression multicarrier five encode three wave circuits, square frame 15, the expression three ripple electronic switching circuits of coding of multicarrier five；Square frame 16, expression multicarrier five encode three wave conversion on-off circuits；Square frame 17, expression multicarrier five encode three ripple trigram electronic switching circuits；Square frame 18, the expression coding three-code encoded electronic circuit of three ripples of multicarrier five, square frame 19, the expression coding three-code encoded output circuit of three ripples of multicarrier five；Square frame 20, expression coding three ripples, four yards of electronic switching circuits of multicarrier five；Square frame 21, expression multicarrier five encode three ripple four code encoding electronic circuits, and square frame 22, expression multicarrier five encode three ripple four code encoding output circuits；Square frame 23, expression multicarrier five encode three ripple dicodes coding OR gate output circuit；Square frame 24, expression multicarrier five encode the three code-excited output circuits of ripple dicode, and square frame 25, expression multicarrier five encode three ripple dicode launching electronics circuits；Square frame 504, expression multicarrier five encode two wave circuits；Square frame 28, expression coding two ripples, five yards of electronic switching circuits of multicarrier five, square frame 29, expression coding two ripples, five yards of coded electronic circuits of multicarrier five, square frame 30, expression coding two ripples, five yards of coding output circuits of multicarrier five, square frame 31, expression coding two ripples, five yards of code-excited output circuits of multicarrier five；Square frame 32, expression coding two ripples, five yards of launching electronics circuits of multicarrier five.

Specific embodiment

Fig. 1 represents a kind of a kind of mode of encryption safe emitter specific implementation.

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

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

3rd, check and hot- line test.

Associated contacts are checked with avometer, or oscillograph.

1st, button switch circuit is encoded to multicarrier five with ohmmeter first to check；The coding button switch circuit of multicarrier five is pressed or decontroled with hand；Button switch circuit input end is encoded with ohm table look-up multicarrier five, whether signal output part break-make is good.

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

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

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

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

（4）, encode to multicarrier five inspection of total electronics alteration switch circuit, two output ends that multicarrier five encodes total electronics alteration switch circuit are tested respectively with avometer positive pole or oscillograph positive signal input, multicarrier five encoded and will be started working after total electronics alteration switch circuit switches on power, and is vibrated；With avometer positive pole or oscillograph positive signal input test respectively multicarrier five encode total electronics alteration switch circuit two output ends will export respectively each other height or two different electric potential signals high low each other；If can't detect, should check whether that element insertion makes a mistake with welding.

（5）, a ripple electronic switching circuit is encoded to multicarrier five, multicarrier five coding one ripple, one yard of electronic switching circuit and multicarrier five encode two yards of inspections of electronic switching circuit of a ripple.

Multicarrier five is tested respectively with avometer positive pole or oscillograph positive signal input encodes a ripple electronic switching circuit,Coding one ripple, the one yard of electronic switching circuit of multicarrier five is connected after having operating voltage with the power end of coding one ripple, the two yards of electronic switching circuits of multicarrier five,Multicarrier five is tested respectively with avometer positive pole or oscillograph positive signal input encodes a ripple electronic switching circuit,Multicarrier five encodes the control end and output end that one yard of electronic switching circuit of a ripple encodes two yards of electronic switching circuits of a ripple with multicarrier five,Multicarrier five encodes a ripple electronic switching circuit,When multicarrier five encodes one yard of electronic switching circuit of a ripple and one ripple of coding, the two yards of control ends of electronic switching circuit of multicarrier five for high potential,Multicarrier five encodes a ripple electronic switching circuit,Multicarrier five encodes one yard of electronic switching circuit of a ripple has voltage output with the output end of the one two yards of electronic switching circuits of ripple of coding of multicarrier five,Multicarrier five encodes a ripple electronic switching circuit,When multicarrier five encodes one yard of electronic switching circuit of a ripple and one ripple of coding, the two yards of control ends of electronic switching circuit of multicarrier five for low potential,Multicarrier five encodes a ripple electronic switching circuit,Multicarrier five encodes one yard of electronic switching circuit of a ripple whether there is pressure output with the output end of the one two yards of electronic switching circuits of ripple of coding of multicarrier five.If can't detect, should check whether that element insertion makes a mistake with welding.

（6）, to multicarrier five encode one yard of coded electronic circuit of a ripple, multicarrier five coding one ripple, two yards of coded electronic circuits checked.

Tested to multicarrier five with avometer positive pole or oscillograph positive signal input and encode one yard of coded electronic circuit of a ripple, the power end of coding one ripple, the two yards of coded electronic circuits of multicarrier five is connected after having operating voltage, it is input into oscillograph positive signal and encodes one yard of coded electronic circuit of a ripple in multicarrier five, multicarrier five encodes two yards of output ends of coded electronic circuit of a ripple, normally by test to its encoded signal；If can't detect, should check whether that welding makes a mistake or component wear.

（7）, to multicarrier five encode one yard of coding output circuit of a ripple, multicarrier five coding one ripple, two yards of inspections of coding output circuit.

Multicarrier five is tested with avometer positive pole or oscillograph positive signal input encode one yard of coding output circuit of a ripple, the power end of coding one ripple, the two yards of coding output circuits of multicarrier five is connected after having operating voltage, multicarrier five encodes one yard of coding output circuit of a ripple, multicarrier five encodes two yards of coding output circuits of a ripple and starts working, tested when multicarrier five encodes one yard of coding output circuit of a ripple with oscillograph positive signal input, after the input of the one two yards of coding output circuits of ripple of coding of multicarrier five has incoming coded signal, it is input into oscillograph positive signal and encodes one yard of coding output circuit of a ripple in multicarrier five, multicarrier five encodes two yards of output ends of coding output circuit of a ripple, it is normal that its transmission signal is arrived into test；If can't detect, should check whether that welding makes a mistake or component wear.

（8）, to multicarrier five encode a wave conversion on-off circuit, multicarrier five encode double wave electronics alteration switch circuit inspection.

Multicarrier five is tested respectively with avometer positive pole or oscillograph positive signal input encodes a wave conversion on-off circuit, multicarrier five encodes two output ends of double wave electronics alteration switch circuit, multicarrier five encodes a wave conversion on-off circuit, the coding double wave electronics alteration switch circuit of multicarrier five will start working after switching on power, and be vibrated；Multicarrier five being tested respectively with avometer positive pole or oscillograph positive signal input and encoding a wave conversion on-off circuit, two output ends of the coding double wave electronics alteration switch circuit of multicarrier five will respectively export height or two different electric potential signals high low each other each other；If can't detect, should check whether that element insertion makes a mistake with welding.

（9）, to multicarrier five encode double wave electronic switching circuit, multicarrier five coding two ripples, five yards of electronic switching circuits, multicarrier five encode three ripple trigram electronic switching circuits, multicarrier five coding three ripples, four yards of inspections of electronic switching circuit.

Multicarrier five is tested respectively with avometer positive pole or oscillograph positive signal input encodes double wave electronic switching circuit,Multicarrier five encodes two ripples, five yards of electronic switching circuits,Multicarrier five encodes three ripple trigram electronic switching circuits,The power end of coding three ripples, the four yards of electronic switching circuits of multicarrier five is connected after having operating voltage,Multicarrier five is tested respectively with avometer positive pole or oscillograph positive signal input encodes double wave electronic switching circuit,Multicarrier five encodes two ripples, five yards of electronic switching circuits,Multicarrier five encodes three ripple trigram electronic switching circuits,Multicarrier five encodes the control end and output end of three ripples, four yards of electronic switching circuits,Multicarrier five encodes double wave electronic switching circuit,Multicarrier five encodes two ripples, five yards of electronic switching circuits,Multicarrier five encodes three ripple trigram electronic switching circuits,When multicarrier five encodes three ripples, four yards of control ends of electronic switching circuit for high potential,Multicarrier five encodes double wave electronic switching circuit,Multicarrier five encodes two ripples, five yards of electronic switching circuits,Multicarrier five encodes three ripple trigram electronic switching circuits,The output end that multicarrier five encodes three four yards of electronic switching circuits of ripple has voltage output,Multicarrier five encodes double wave electronic switching circuit,Multicarrier five encodes two ripples, five yards of electronic switching circuits,Multicarrier five encodes three ripple trigram electronic switching circuits,When multicarrier five encodes three ripples, four yards of control ends of electronic switching circuit for low potential,Multicarrier five encodes double wave electronic switching circuit,Multicarrier five encodes two ripples, five yards of electronic switching circuits,Multicarrier five encodes three ripple trigram electronic switching circuits,The output end that multicarrier five encodes three four yards of electronic switching circuits of ripple whether there is pressure output.

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

（10）, to multicarrier five encode two ripples, five yards of coded electronic circuits, multicarrier five coding the three-code encoded electronic circuit of three ripples, multicarrier five encode three ripple four code encoding electronic circuits checked.

Tested to multicarrier five with avometer positive pole or oscillograph positive signal input and encode two ripples, five yards of coded electronic circuits, multicarrier five encodes the three-code encoded electronic circuit of three ripples, the power end of the three ripple four code encoding electronic circuits of coding of multicarrier five is connected after having operating voltage, it is input into oscillograph positive signal and encodes two ripples, five yards of coded electronic circuits in multicarrier five, multicarrier five encodes the three-code encoded electronic circuit of three ripples, multicarrier five encodes the output end of three ripple four code encoding electronic circuits, normally by test to its encoded signal；If can't detect, should check whether that welding makes a mistake or component wear.

（11）, to multicarrier five encode a ripple dicode coding OR gate output circuit, multicarrier five encode three ripple dicodes encode OR gate output circuit inspection.

Tested to multicarrier five with avometer positive pole or oscillograph positive signal input and encode ripple dicode coding OR gate output circuit, the power end of the coding three ripple dicodes coding OR gate output circuit of multicarrier five is connected after having operating voltage, it is input into oscillograph positive signal and encodes ripple dicode coding OR gate output circuit in multicarrier five, the input that multicarrier five encodes three ripple dicodes coding OR gate output circuit is tested when having normal its encoded signal, will be tested to normal its encoded signal in its output end；If can't detect, should check whether that welding makes a mistake or component wear.

（12）, to multicarrier five encode two ripples, five yards of code-excited output circuits, multicarrier five encode a code-excited output circuit of ripple dicode, multicarrier five encode the three code-excited output circuits of ripple dicode inspection.

Multicarrier five is tested with avometer positive pole or oscillograph positive signal input encode two ripples, five yards of code-excited output circuits,Multicarrier five encodes a code-excited output circuit of ripple dicode,The power end of the three code-excited output circuits of ripple dicode of coding of multicarrier five is connected after having operating voltage,Multicarrier five encodes two ripples, five yards of code-excited output circuits,Multicarrier five encodes a code-excited output circuit of ripple dicode,Multicarrier five encodes the start-up operation of the three code-excited output circuits of ripple dicode,Tested when multicarrier five encodes two ripples, five yards of code-excited output circuits with oscillograph positive signal input,Multicarrier five encodes a code-excited output circuit of ripple dicode,After the input of the three code-excited output circuits of ripple dicode of coding of multicarrier five has incoming coded signal,It is input into oscillograph positive signal and encodes two ripples, five yards of code-excited output circuits in multicarrier five,Multicarrier five encodes a code-excited output circuit of ripple dicode,Multicarrier five encodes the output end of the three code-excited output circuits of ripple dicode,It is normal that its large code signal after excitation is arrived into test；If can't detect, should check whether that welding makes a mistake or component wear.

（13）, to multicarrier five encode a ripple dicode launching electronics circuit, multicarrier five encode two ripple launching electronics circuits, multicarrier five encode three ripple dicode launching electronics circuits inspection.

Multicarrier five is tested with avometer positive pole or oscillograph positive signal input encode a ripple dicode launching electronics circuit, multicarrier five encodes two ripple launching electronics circuits, the power end of the three ripple dicode launching electronics circuits of coding of multicarrier five is connected after having operating voltage, multicarrier five encodes a ripple dicode launching electronics circuit, multicarrier five encodes two ripple launching electronics circuits, multicarrier five encodes three ripple dicode launching electronics circuits and starts working, after the incoming coded signal after input of three ripples, four yard of two ripple, four yards of launching electronics circuits has excitation being tested with oscillograph positive signal input, it is input into oscillograph positive signal and encodes a ripple dicode launching electronics circuit in multicarrier five, multicarrier five encodes two ripple launching electronics circuits, multicarrier five encodes the output end of three ripple dicode launching electronics circuits, it is normal that its transmission signal is arrived into test；If can't detect, should check whether that welding makes a mistake or component wear.

（14）, to multicarrier five encode two ripples, five yards of coding output circuits, multicarrier five coding the three-code encoded output circuit of three ripples, multicarrier five encode three ripple four code encoding output circuits inspection.

Multicarrier five is tested with avometer positive pole or oscillograph positive signal input encode two ripples, five yards of coding output circuits,Multicarrier five encodes the three-code encoded output circuit of three ripples,The power end of the three ripple four code encoding output circuits of coding of multicarrier five is connected after having operating voltage,Multicarrier five encodes two ripples, five yards of coding output circuits,Multicarrier five encodes the three-code encoded output circuit of three ripples,Multicarrier five encodes three ripple four code encoding output circuits and starts working,Tested when multicarrier five encodes two ripples, five yards of coding output circuits with oscillograph positive signal input,Multicarrier five encodes the three-code encoded output circuit of three ripples,After the input of the three ripple four code encoding output circuits of coding of multicarrier five has incoming coded signal,It is input into oscillograph positive signal and encodes two ripples, five yards of coding output circuits in multicarrier five,Multicarrier five encodes the three-code encoded output circuit of three ripples,Multicarrier five encodes the output end of three ripple four code encoding output circuits,It is normal that its transmission signal is arrived into test；If can't detect, should check whether that welding makes a mistake or component wear.

Claims (6)

1. a kind of encryption safe emitter, it is characterized in that：Battery power circuit is encoded by multicarrier five, the coding button switch circuit of multicarrier five, multicarrier five encodes total electronics alteration switch circuit；

Multicarrier five encodes a wave circuit, the coding double wave circuit composition of multicarrier five；

Multicarrier five encodes a wave circuit and encodes a ripple electronic switching circuit by multicarrier five, multicarrier five encodes a wave conversion on-off circuit, multicarrier five encodes one yard of electronic switching circuit of a ripple, coding one ripple, the one yard of coded electronic circuit of multicarrier five, coding one ripple, the one yard of coding output circuit of multicarrier five；Multicarrier five encodes two yards of electronic switching circuits of a ripple, coding one ripple, the two yards of coded electronic circuits of multicarrier five, coding one ripple, the two yards of coding output circuits of multicarrier five；Multicarrier five encodes ripple dicode coding OR gate output circuit, and multicarrier five encodes a code-excited output circuit of ripple dicode, and multicarrier five encodes ripple dicode launching electronics circuit composition；

Multicarrier five encodes double wave circuit and encodes double wave electronic switching circuit by multicarrier five, and the coding double wave electronics alteration switch circuit of multicarrier five, multicarrier five encodes two wave circuits, and multicarrier five encodes three wave circuits composition；

Multicarrier five encodes two wave circuits and encodes two ripples, five yards of electronic switching circuits by multicarrier five, multicarrier five encodes two ripples, five yards of coded electronic circuits, multicarrier five encodes two ripples, five yards of coding output circuits, multicarrier five encodes two ripples, five yards of code-excited output circuits, and multicarrier five encodes two ripples, five yards of launching electronics circuit compositions；

Multicarrier five encodes three wave circuits and encodes three ripple electronic switching circuits by multicarrier five, and multicarrier five encodes three wave conversion on-off circuits；

Multicarrier five encodes three ripple trigram electronic switching circuits, the coding three-code encoded electronic circuit of three ripples of multicarrier five, the coding three-code encoded output circuit of three ripples of multicarrier five；

Multicarrier five encodes three ripples, four yards of electronic switching circuits, and multicarrier five encodes three ripple four code encoding electronic circuits, and multicarrier five encodes three ripple four code encoding output circuits；

Multicarrier five encodes three ripple dicodes coding OR gate output circuit, and multicarrier five encodes the three code-excited output circuits of ripple dicode, and multicarrier five encodes three ripple dicode launching electronics circuits composition；

The coding button switch circuit on one side connection coding battery power circuit positive pole of multicarrier five of multicarrier five, the coding button switch circuit other end of multicarrier five encodes total electronics alteration switch circuit power end with multicarrier five respectively, the multicarrier five that multicarrier five encodes a wave circuit encodes a ripple electronic switching circuit power end, the coding double wave electronic switching circuit power end connection of multicarrier five of the coding double wave circuit of multicarrier five；

Multicarrier five encodes total electronics alteration switch circuit ground end, the multicarrier five that multicarrier five encodes a wave circuit encodes a ripple electronic switching circuit ground terminal, the coding double wave electronic switching circuit ground terminal of multicarrier five of the coding double wave circuit of multicarrier five, is connected with the coding battery power circuit ground wire of multicarrier five respectively；

Two output ends that multicarrier five encodes total electronics alteration switch circuit encode a ripple electronic switching circuit control end with the multicarrier five of one wave circuit of coding of multicarrier five respectively, the multicarrier five of the coding double wave circuit of multicarrier five encodes double wave electronic switching circuit control end and is connected；

Multicarrier five encodes a ripple electronic switching circuit output end and encodes a wave conversion on-off circuit power end with multicarrier five respectively, multicarrier five encodes one yard of electronic switching circuit power end of a ripple, multicarrier five encodes two yards of electronic switching circuit power ends of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of a ripple dicode, and multicarrier five encodes a ripple dicode launching electronics circuit power end and is connected；

Multicarrier five encodes a ripple electronic switching circuit ground terminal, multicarrier five encodes a wave conversion on-off circuit ground terminal, multicarrier five encodes one yard of electronic switching circuit ground terminal of a ripple, multicarrier five encodes two yards of electronic switching circuit ground terminals of a ripple, multicarrier five encodes ripple dicode coding OR gate output circuit ground terminal, multicarrier five encodes the code-excited output circuit ground terminal of a ripple dicode, and multicarrier five encodes a ripple dicode launching electronics circuit ground end and is connected with the coding battery power circuit ground wire of multicarrier five；

Multicarrier five encodes two output ends of a wave conversion on-off circuit and encodes one yard of electronic switching circuit control end of a ripple with multicarrier five respectively, and coding one ripple, the two yards of electronic switching circuit control ends of multicarrier five are connected；

Multicarrier five encodes one yard of electronic switching circuit output end of a ripple and encodes one yard of coded electronic circuit power end of a ripple with multicarrier five respectively, and coding one ripple, the one yard of coding output circuit power end of multicarrier five is connected；

Multicarrier five encodes one yard of coded electronic circuit ground end of a ripple, and multicarrier five encodes one yard of coding output circuit ground terminal of a ripple and is connected with the coding battery power circuit ground wire of multicarrier five respectively；

Multicarrier five encodes one yard of coded electronic circuit output end of a ripple and is connected with coding one ripple, the one yard of coding output circuit input of multicarrier five, and multicarrier five encodes one yard of coding output circuit output end of a ripple and is connected with the input of the coding one ripple dicode coding OR gate of multicarrier five output circuit one；

Multicarrier five encodes two yards of electronic switching circuit output ends of a ripple and encodes two yards of coded electronic circuit power ends of a ripple with multicarrier five respectively, and coding one ripple, the two yards of coding output circuit power ends of multicarrier five are connected；

Multicarrier five encodes two yards of coded electronic circuit ground ends of a ripple, and multicarrier five encodes two yards of coding output circuit ground terminals of a ripple and is connected with the coding battery power circuit ground wire of multicarrier five respectively；

Multicarrier five encodes two yards of coded electronic circuit output ends of a ripple and is connected with coding one ripple, the two yards of coding output circuit inputs of multicarrier five, and multicarrier five encodes two yards of coding output circuit output ends of a ripple and is connected with the input of the coding one ripple dicode coding OR gate of multicarrier five output circuit one；

Multicarrier five encodes ripple dicode coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of one ripple dicode of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of a ripple dicode and is connected with the one ripple dicode launching electronics circuit input end of coding of multicarrier five；

The coding double wave electronic switching circuit output end of multicarrier five of the coding double wave circuit of multicarrier five and the coding double wave electronics alteration switch circuit power of multicarrier five end, multicarrier five encodes three ripple electronic switching circuit power ends, and multicarrier five encodes two ripples, five yards of electronic switching circuit power end connections；

The coding double wave electronic switching circuit ground terminal of multicarrier five of the coding double wave circuit of multicarrier five, the coding double wave electronics alteration switch circuit ground of multicarrier five end, multicarrier five encodes three ripple electronic switching circuit ground terminals, and multicarrier five encodes two ripples, five yards of electronic switching circuit ground terminals and is connected with the coding battery power circuit ground wire of multicarrier five respectively；

The multicarrier five that two output ends of the coding double wave electronics alteration switch circuit of multicarrier five encode three wave circuits with multicarrier five respectively encodes three ripple electronic switching circuit control ends, and the multicarrier five that multicarrier five encodes two wave circuits encodes two ripples, five yards of electronic switching circuit control end connections；

The three ripple electronic switching circuit output ends of the coding of multicarrier five that multicarrier five encodes three wave circuits encode three wave conversion on-off circuit power ends with multicarrier five respectively, multicarrier five encodes three ripple trigram electronic switching circuit power ends, multicarrier five encodes three ripples, four yards of electronic switching circuit power ends, multicarrier five encodes three ripple dicodes coding OR gate output circuit power end, multicarrier five encodes the code-excited output circuit power end of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit power ends and is connected；

Multicarrier five encodes three ripple electronic switching circuit ground terminals, multicarrier five encodes three wave conversion on-off circuit ground terminals, multicarrier five encodes three ripple trigram electronic switching circuit ground terminals, multicarrier five encodes three ripples, four yards of electronic switching circuit ground terminals, multicarrier five encodes three ripple dicodes coding OR gate output circuit ground terminal, multicarrier five encodes the code-excited output circuit ground terminal of three ripple dicodes, and multicarrier five encodes three ripple dicode launching electronics circuit ground ends and is connected with the coding battery power circuit ground wire of multicarrier five；

Multicarrier five encodes three wave conversion on-off circuits, two output ends and encodes three ripple trigram electronic switching circuit control ends with multicarrier five respectively, and coding three ripples, the four yards of electronic switching circuit control ends of multicarrier five are connected；

Multicarrier five encodes three ripple trigram electronic switching circuit output ends and encodes the three-code encoded electronic circuit power end of three ripples with multicarrier five respectively, and the coding three-code encoded output circuit power end of three ripples of multicarrier five is connected,

Multicarrier five encodes the three-code encoded electronic circuit ground terminal of three ripples, and multicarrier five encodes the three-code encoded output circuit ground terminal of three ripples and is connected with the coding battery power circuit ground wire of multicarrier five respectively；

Multicarrier five encodes three ripple trigrams code coded electronic circuit output end and is connected with the coding three-code encoded output circuit input of three ripples of multicarrier five, and multicarrier five encodes the three-code encoded output circuit output end of three ripples and is connected with the input of the coding three ripple dicodes coding OR gate of multicarrier five output circuit one；

Multicarrier five encodes three ripples, four yards of electronic switching circuit output ends and encodes three ripple four code encoding electronic circuit power ends with multicarrier five respectively, and multicarrier five encodes three ripple four code encoding output circuit power ends and is connected；

Multicarrier five encodes three ripple four code encoding electronic circuit ground terminals, and multicarrier five encodes three ripple four code encoding output circuit ground terminals and is connected with the coding battery power circuit ground wire of multicarrier five respectively；

Multicarrier five encodes three ripple four code encoding electronic circuit output ends and is connected with the three ripple four code encoding output circuit inputs of coding of multicarrier five, and multicarrier five encodes three ripple four code encoding output circuit output ends and is connected with the input of the coding three ripple dicodes coding OR gate of multicarrier five output circuit one；

Multicarrier five encodes three ripple dicodes coding OR gate output circuit output end and is connected with the coding code-excited output circuit input of three ripple dicodes of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of three ripple dicodes and is connected with the three ripple dicode launching electronics circuit input ends of coding of multicarrier five；

Two ripple of coding of multicarrier five, five yards of electronic switching circuit output ends that multicarrier five encodes two wave circuits encode two ripples, five yards of coded electronic circuit power ends with multicarrier five respectively, multicarrier five encodes two ripples, five yards of coding output circuit power ends, multicarrier five encodes the code-excited output circuit power end of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit power ends and is connected；

Multicarrier five encodes two ripples, five yards of coded electronic circuit ground ends, multicarrier five encodes two ripples, five yards of coding output circuit ground terminals, multicarrier five encodes the code-excited output circuit ground terminal of five yards of two ripple, and multicarrier five encodes two ripples, five yards of launching electronics circuit ground ends and is connected with the coding battery power circuit ground wire of multicarrier five respectively；

Multicarrier five encodes two ripples, five yards of coded electronic circuit output ends and is connected with coding two ripples, the five yards of coding output circuit inputs of multicarrier five, multicarrier five encodes two ripples, five yards of coding output circuit output ends and is connected with the coding code-excited output circuit input of five yards of two ripple of multicarrier five, and multicarrier five encodes the code-excited output circuit output end of five yards of two ripple and is connected with coding two ripples, the five yards of launching electronics circuit input ends of multicarrier five.

2. a kind of encryption safe emitter according to claim 1, it is characterized in that：A kind of encryption safe emitter multicarrier is combined for radio wave with infrared wave and ultrasonic wave.

3. a kind of encryption safe emitter according to claim 1, it is characterized in that：A kind of encryption safe emitter five is encoded to regular coding and is combined with regular coding with regular coding with regular coding with rolling coding.

4. a kind of encryption safe emitter according to claim 1, it is characterized in that：A kind of encryption safe emitter five is encoded to the combination of regular coding and regular coding and regular coding and regular coding and regular coding.

5. a kind of encryption safe emitter according to claim 1, it is characterized in that：A kind of encryption safe emitter five is encoded to rolling coding and is combined with regular coding with regular coding with rolling coding with regular coding.

6. a kind of encryption safe emitter according to claim 1, it is characterized in that：A kind of encryption safe emitter five is encoded to as rolling coding is combined with rolling coding with rolling coding with regular coding with regular coding.