CN103136917A - Automobile hybrid remote control transmitting device - Google Patents
Automobile hybrid remote control transmitting device Download PDFInfo
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- CN103136917A CN103136917A CN 201110393764 CN201110393764A CN103136917A CN 103136917 A CN103136917 A CN 103136917A CN 201110393764 CN201110393764 CN 201110393764 CN 201110393764 A CN201110393764 A CN 201110393764A CN 103136917 A CN103136917 A CN 103136917A
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Abstract
The invention belongs to the technical field of automotive electrical appliances and discloses an automobile hybrid remote control transmitting device. The automobile hybrid remote control transmitting device is composed of a double-wave-double-code and single-wave-double-code remote control transmitting unit circuit and a power supply unit circuit, wherein the double-wave-double-code and single-wave-double-code remote control transmitting unit circuit is composed of a double-wave-double-code remote control transmitting unit circuit and a single-wave-double-code remote control transmitting unit circuit. The double-wave-double-code remote control transmitting unit circuit is composed of a double-wave button switching circuit, a double-wave oscillating circuit, a double-wave electric switching circuit, a double-wave wireless remote control transmitting circuit, a double-wave infrared remote control transmitting circuit and a double-wave or gate circuit. The double-wave wireless remote control transmitting circuit is composed of a double-wave wireless transmitting circuit, a double-wave wireless encoding circuit and a double-wave or gate circuit. The single-wave-double-code remote control transmitting unit circuit is composed of a single-wave button switching circuit, a single-wave or gate circuit, a single-wave oscillating circuit, a single-wave electric switching circuit, a single-wave remote control transmitting circuit and a single-wave encoding circuit. The automobile hybrid remote control transmitting device is used for triggering and releasing a central control lock in an automobile, and has high resistance to decoders and code grippers.
Description
Technical field
The invention belongs to the car electrics technical field.
Background technology
The input of motor central lock and warning system is removed at present, is generally the mode of artificial input,, drawing out wireless remote controlled keys after the car door Close All again, presses button the car door central controlled lock is locked, and warning system is dropped into.And remove central controlled lock and warning system is generally also removed with wireless remote controlled keys, and the problem of its existence is: safe not, when the lawless person uses power enough during large automobile remote-control interference unit, can disturb the automobile remote controllers signal nearby, and make it malfunctioning.Because interference unit is waited the restriction that is not subject to car type and telepilot kind in use, fixed code, specific code, rolling code can disturb, as long as jamming power is enough large, any a vehicle can be disturbed, the order that makes automobile can not get locking a door causes the false lock of vehicle phenomenon.
When meeting strong the interference, wireless remote control is malfunctioning, not only uses radiowave by inputs such as central controlled locks, also it can't be removed.
Existing popular so-called demoder also socially, and grab yard device etc. as tool used in crime at car owner's lock-on signal during with the normal remote control close door, and then with the theft of decoding of laptop computer deciphering or scanner.Dangerous, cause very big hidden danger.
Summary of the invention
For in the market, the locking of arrangements for automotive doors central controlled lock and the input of warning system, releasing, the mode that mostly adopts remote manual control to operate; When the chance that meets with the offender is disturbed strongly, wireless remote control is malfunctioning, not only uses radiowave by inputs such as central controlled locks, also it can't be removed; Simultaneously, at existing popular so-called demoder also socially, and grab yard device etc. as tool used in crime, lock-on signal when car owner's use normal remote control close door, and then the theft of decoding of laptop computer deciphering or scanner, cause the unnecessary economy of car owner, emotional distress.The present invention is in the locking of arrangements for automotive doors central controlled lock and input, the releasing of warning system, and available single, double ripple, dicode remote-controlled launcher drop into, remove.Antagonism demoder and to grab yard device ability of commiting a crime strong; When the strong wave interference wireless remote control of chance is malfunctioning, available infrared ray dicode closely operates again.
Again can with my a kind of invention: in automobile is closed the door process, closing last winnowing machine behind the door, central controlled lock automatically locks, and warning system automatic throw-in device is used in conjunction with, not only convenient but also safety; Drop into the automatic throw-in equipment of closing the door, remove with the remote control of double wave dicode while opening the door, when the strong wave interference wireless remote control of chance is malfunctioning, available infrared ray dicode closely operates again.
The present invention overcomes and has stoped the offender to disturb and to cause wireless remote control malfunctioning with the wave interference device, and the accident that the crime one's share of expenses for a joint undertaking is used in the crime such as the instrument of grabbing yard device occurs.Greatly improved the security degree of automobile, modern sense is strong again.
The technical solution adopted in the present invention is:
1, a kind of automobile remote-control mixing remote-controlled launcher is: a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit and power unit circuit, consist of, a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit is again by double wave dicode remote-controlled launch unit circuit, single ripple dicode remote-controlled launch unit the electric circuit constitute.
Double wave dicode remote-controlled launch unit circuit is by double wave pushbutton switch circuit, the double wave oscillatory circuit, and the double wave electronic switching circuit, double wave wireless remote control radiating circuit, double wave infrared remote-controlled transmitting circuit, the double wave OR circuit forms; Double wave wireless remote control radiating circuit is again by the double wave radio transmitter, double wave wireless encoding circuit, and the double wave OR circuit forms; Double wave infrared remote-controlled transmitting circuit is by the double wave infrared transmitting circuit, double wave infrared coding circuit, and the double wave OR circuit forms; In double wave double wave dicode remote-controlled launch unit circuit, double wave pushbutton switch one end connects positive source V
dD, the double wave pushbutton switch other end connects double wave oscillatory circuit live wire V
dD; Double wave oscillatory circuit ground wire is connected with the power unit circuit ground wire, and two output terminals of double wave oscillatory circuit connect respectively two control ends of two electronic switching circuits of double wave; Termination of an electronic switch of double wave and positive source V
dDbe connected, another termination is connected with double wave two OR circuit inputs, double wave radio transmitter live wire V in the output of an one double wave OR circuit and double wave wireless remote control radiating circuit
dDbe connected, the live wire V of the output of another double wave OR circuit and double wave wireless encoding circuit
dDbe connected, the output of double wave wireless encoding circuit is connected with the input with the double wave radio transmitter; Termination of an other double wave electronic switch and positive source V
dDbe connected, its another termination of double wave electronic switch and other two double wave OR circuit inputs are connected, this one of them double wave OR circuit export with double wave infrared remote-controlled transmitting circuit in double wave infrared transmitting circuit live wire V
dDbe connected, the output of this another double wave OR circuit and double wave infrared coding circuit live wire V
dD, being connected, the output of double wave infrared coding circuit is connected with the input of other double wave OR circuit, and the output of its double wave OR circuit is connected with the input of double wave infrared transmitting circuit, and double wave infrared remote-controlled transmitting circuit ground is connected with power cathode.
Single ripple dicode remote-controlled launch unit circuit is by single ripple pushbutton switch circuit, single ripple OR circuit, single ripple oscillatory circuit, single ripple electronic switching circuit, single ripple remote controlled transmitting circuit, single ripple coding circuit forms, and in single ripple pushbutton switch circuit, a termination of switch is connected with positive source, another termination is connected with two, single ripple or an input, output and single ripple remote controlled transmitting circuit live wire V of one of them single ripple or door
dDconnect single ripple remote controlled transmitting circuit live wire V
dDalso with the output of other OR circuit, be connected, single ripple remote controlled transmitting circuit ground wire is connected with power ground.The output of another single ripple or social connections and single ripple oscillatory circuit live wire V
dDbe connected, single ripple oscillatory circuit ground wire is connected with power ground; Two output terminals of single ripple oscillatory circuit connect respectively two control ends of two single ripple electronic switches; Termination of one of them single ripple electronic switch and positive source V
dDbe connected, the live wire V of another termination of single ripple electronic switch and a single ripple coding circuit
dDbe connected, the live wire V of this list ripple coding circuit
dDalso with the output of other single ripple OR circuit, be connected, the output of single ripple coding circuit is connected with an other single ripple OR circuit input, the output of this list ripple OR circuit is connected with the input of single ripple remote controlled transmitting circuit, termination of another single ripple electronic switch and positive source V
dDbe connected, the live wire V of its another termination and another single ripple coding circuit
dDbe connected, the output of this list ripple coding circuit is connected with other single ripple OR circuit input, and the output of its single ripple OR circuit is connected with the input of single ripple remote controlled transmitting circuit.
2, a kind of automobile remote-control mixing remote-controlled launcher, in single ripple dicode radiating circuit unit, single ripple adopts infrared wave.
3, a kind of automobile remote-control mixing remote-controlled launcher, in single ripple dicode radiating circuit unit, single ripple adopts radiowave.
4, a kind of automobile remote-control mixing remote-controlled launcher, in double wave dicode remote controlled transmitting circuit unit, share an infrared transmitter while in Infrared Remote-Control Sending element circuit and single ripple dicode radiating circuit unit, adopting the infrared remote-controlled transmitting circuit and share one of them infrared coding circuit.
5, a kind of automobile remote-control mixing remote-controlled launcher, in double wave dicode remote controlled transmitting circuit unit, share a radio transmitter while in wireless remote control transmitter unit circuit and single ripple dicode radiating circuit unit, adopting the wireless remote control radiating circuit and share one of them wireless encoding circuit.
Its principle of work is as follows:
This device is comprised of a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit and power unit circuit, and a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit is again by double wave dicode remote-controlled launch unit circuit, single ripple dicode remote-controlled launch unit the electric circuit constitute.
In single ripple dicode remote-controlled launch unit circuit, single ripple can adopt infrared wave also can adopt the line electric wave.
Infrared remote-controlled transmitting circuit in double wave dicode remote-controlled launch unit circuit can be an own independent infrared transmitter and an infrared coding circuit, when single ripple dicode remote-controlled launch unit circuit adopts infrared wave, also can share an infrared transmitter and share an infrared coding circuit with single ripple dicode remote-controlled launch unit circuit middle infrared (Mid-IR) remote controlled transmitting circuit.
Wireless remote control radiating circuit in double wave dicode remote-controlled launch unit circuit can be an own independent radio transmitter and a wireless encoding circuit, when single ripple dicode remote-controlled launch unit circuit adopts wireless wave, also can share a radio transmitter and share a wireless encoding circuit with wireless remote control radiating circuit in single ripple dicode remote-controlled launch unit circuit.
Double wave dicode remote-controlled launch unit circuit, when pressing double wave dicode remote-controlled launch unit double wave circuit button switch, double wave pushbutton switch one end connects positive source V
dD, the double wave pushbutton switch other end connects double wave oscillatory circuit live wire V
dD; Double wave oscillatory circuit ground wire is connected with the power unit circuit ground wire, the vibration of starting working that switches on power of double wave oscillatory circuit, two output terminal interval is respectively exported high and low current potential, and two output terminal connects respectively two control ends of two double wave electronic switching circuits; Termination of a double wave electronic switch and positive source V
dDbe connected, another termination is connected with two double wave OR circuit inputs, radio transmitter live wire V in the output of one of them double wave OR circuit and double wave wireless remote control radiating circuit
dDbe connected, the live wire V of the output of another double wave OR circuit and double wave wireless encoding circuit
dDbe connected, the output of double wave wireless encoding circuit is connected with the input of double wave radio transmitter; Termination of another one double wave electronic switch and positive source V
dDbe connected, its another termination of double wave electronic switch and other two double wave OR circuit inputs are connected, a double wave OR circuit in this group double wave or door export with double wave Infrared Remote-Control Sending circuit in double wave infrared transmitting circuit live wire V
dDbe connected, another output of double wave OR circuit and double wave infrared coding circuit live wire V in this group double wave OR circuit
dDbe connected, the output of double wave infrared coding circuit is connected with the input of other double wave OR circuit, and the output of its double wave OR circuit is connected with the input of double wave infrared transmitting circuit, and double wave infrared remote-controlled transmitting circuit ground is connected with power ground; When connecting double wave wireless remote control radiating circuit live wire V
dDthe control end of electronic switch unit while being high, the energising that switches on power of this double wave electronic switch, double wave radio transmitter in double wave wireless remote control radiating circuit, the live wire V of double wave wireless encoding circuit
dDbe communicated with power supply and start working, the output of double wave wireless encoding circuit signal is connected with the input of double wave radio transmitter, and double wave wireless encoding circuit signal is with the emission of double wave radio transmitter, and double wave wireless remote control radiating circuit completes launch mission.At this moment another output terminal due to the double wave oscillatory circuit is low, connects double wave Infrared Remote-Control Sending circuit live wire V
dDthe control end of double wave electronic switch be low, so the electronic switch of double wave Infrared Remote-Control Sending circuit cuts out, double wave Infrared Remote-Control Sending circuit is not launched.
When upset occurs in double wave oscillatory circuit state, the former end that is output as noble potential of its double wave oscillatory circuit, the output terminal that connects the double wave electronic switch controling end of double wave wireless remote control transmitter unit circuit, current potential is low by hypermutation, now double wave wireless electron switch cuts out, double wave wireless remote control radiating circuit is not launched, the former end that is output as electronegative potential of its double wave oscillating unit, the current potential that connects the output terminal of double wave Infrared Remote-Control Sending electric circuit electronics technical switch control end becomes height by hanging down, the electronic switch of this double wave Infrared Remote-Control Sending circuit is opened use, the energising of switch connection power supply, double wave infrared transmitting circuit in double wave Infrared Remote-Control Sending circuit, the live wire V of double wave infrared coding circuit
dDenergising is started working, the output of double wave infrared coding circuit signal is connected with the input of double wave infrared transmitting circuit through double wave or door, (also can without or door directly connected,) double wave infrared coding circuit signal is with the emission of double wave infrared transmitting circuit, double wave infrared remote-controlled transmitting circuit completes launch mission.
Circuit is alternation so repeatedly, realizes double wave wireless remote control radiating circuit in double wave dicode remote controlled transmitting circuit and the double wave infrared remote-controlled transmitting circuit double wave dicode remote-transmitter that hockets.
In this circuit, OR circuit mainly is used as isolating diode, and also available diode replaces.
Single ripple dicode radiating circuit can be the wireless remote control emission, can be also Infrared Remote-Control Sending, and its circuit unit can be independently, also can share a radiating circuit and a coding circuit with certain some in double wave dicode remote controlled transmitting circuit.
In single ripple dicode remote-controlled launch unit circuit, single ripple pushbutton switch one end in single ripple pushbutton switch circuit connects positive source V
dD, single ripple pushbutton switch other end connects an oscillatory circuit live wire V
dD,with a single ripple OR circuit input, the output of single ripple OR circuit and single ripple remote controlled transmitting circuit live wire V
dDbe connected, single ripple Infrared Remote-Control Sending circuit is connected with the power unit circuit ground wire with the oscillatory circuit ground wire; When the pushbutton switch by the ripple dicode remote controlled transmitting circuit that places an order, in infrared transmitter, the remote controlled transmitting circuit energising is started working, the oscillatory circuit vibration of also starting working that switches on power, high and low current potential is alternately exported respectively at two output terminal intervals of oscillatory circuit, and two output terminal connects respectively two control ends of two electronic switch units; Termination of an electronic switch and positive source V
dDbe connected, another termination and a coding circuit live wire V
dDbe connected, the output of its coding circuit is connected with another OR circuit input.This OR circuit output is connected with the input of Infrared Remote-Control Sending circuit, termination of another electronic switch and positive source V
dDbe connected, its another termination and another coding circuit live wire V
dDbe connected, OR circuit input of the output of this coding circuit and other is connected, and this OR circuit output is connected with the input of Infrared Remote-Control Sending circuit, in two electronic switching circuits, the electronic switch that its control end is a high position is open-minded, switches on power, and the coding circuit live wire V that it is connected
dDenergising work, coding circuit signal warp or door output to infrared transmitter, through Infrared Remote-Control Sending circuit emission output signal; The control end of another electronic switch unit is low, and its electronic switch cuts out, the coding circuit live wire V of its connection
dDwithout electricity, do not work; When upset occurs the oscillating unit state, control end was that low former control end of closing electronic switch is uprised by low originally, and electronic switch is open-minded, the coding circuit live wire V of its connection
dDelectricity work is arranged, and coding circuit signal output warp or door output to infrared transmitter, through radiating circuit emission output signal; Former control end is high electronic switch, and control end is by high step-down, and electronic switch cuts out, the coding circuit live wire V of its connection
dDwithout electricity, do not work.
Circuit is alternation so repeatedly, realizes the alternation of two kinds of coded signals in single ripple dicode remote controlled transmitting circuit, carries out single ripple dicode remote-transmitter.
In this circuit, OR circuit also mainly is used as isolating diode, also can directly with diode, replace.
Following prominent advantage is arranged after the invention process:
1, adopt the double wave dicode owing to dropping into and removing generalized case; Two ripples belong to the heterogeneity wavelength,, use wireless remote control and infra-red remote control, the coding of two ripples is different again, so to adopting demoder, grab a yard device and catch with radio scanner criminal offence resistivity strong.
2, when meeting strong interference wireless remote control inefficacy, the double wave decoding can't be worked, and available backup closely infrared ray list ripple is two, removes.
3, can and shut whole car doors after central controlled lock automatically close, warning system automatic throw-in device is used in conjunction with, convenient, modern sense is strong.Effectively raise the automotive safety coefficient, stoped the criminal offence of using interference unit, demoder and so on crime one's share of expenses for a joint undertaking, for the car owner reduces unnecessary economic loss.
4, a kind of mixing remote-controlled launcher is arranged on a launch-box, easy to use.
5, simple, easily production installation, stable and reliable for performance.
The accompanying drawing explanation
The double wave dicode remote controlled transmitting circuit unit schematic diagram that Fig. 1 is device.
In figure: square frame 1, power unit circuit; Square frame 2, double wave pushbutton switch; Square frame 3, double wave oscillatory circuit; Square frame 4, double wave radio-circuit electronic switch; Square frame 5, double wave infrared ray circuit electronic switch; Square frame 6, double wave wireless encoding circuit live wire OR circuit; Square frame 7, double wave radio transmitter live wire OR circuit; Square frame 8, double wave wireless encoding circuit; Square frame 9, double wave radio transmitter; Square frame 10, double wave infra-red code circuit live wire OR circuit; Square frame 11, double wave infrared transmitter live wire OR circuit; Square frame 12, double wave infra-red code circuit; Square frame 23, double wave infra-red code circuit output OR circuit; Square frame 13, double wave infrared transmitter.
Single ripple dicode remote controlled transmitting circuit unit schematic diagram that Fig. 2 is device.
In figure: square frame 1, power unit circuit; Square frame 14, single ripple pushbutton switch; Square frame 15, single ripple oscillatory circuit live wire OR circuit; Square frame 16, single ripple remote-transmitter live wire OR circuit; Square frame 17, single ripple oscillatory circuit; Square frame 18, the single ripple 2 electric circuit electronics technical switches of encoding; Square frame 19, the single ripple 1 electric circuit electronics technical switch of encoding; Square frame 20, single ripple 2 circuit of encoding; Square frame 21, the single ripple 2 circuit output OR circuit of encoding; Square frame 22, single ripple 1 circuit of encoding; Square frame 26, the single ripple 1 circuit output OR circuit of encoding; Square frame 24, single ripple remote controlled transmitting circuit; Square frame 10, double wave infra-red code circuit live wire OR circuit; Square frame 11, double wave infrared transmitter live wire OR circuit.
The schematic diagram that Fig. 3 is the another kind of mode of a kind of automobile remote-control mixing remote-controlled launcher: in single ripple dicode transmitter unit circuit, adopt infrared remote-controlled transmitting, wherein in double wave dicode remote-controlled launch unit circuit Infrared Remote-Control Sending circuit and single ripple dicode transmitter unit circuit middle infrared (Mid-IR) remote controlled transmitting circuit common adopt an infrared transmitter and infrared coding circuit in an infrared coding circuit, use the square frame 12 double wave infra-red code circuit in double wave dicode remote-controlled launch unit circuit, square frame 13 double wave infrared transmitters, and their interlock circuit, the square frame 12 double wave infra-red code circuit in double wave dicode remote-controlled launch unit circuit had both been made, the circuits of square frame 13 double wave infrared transmitters, make again the single ripple of square frame 22 in single ripple dicode transmitter unit circuit 1 circuit of encoding, the circuits of square frame 24 remote controlled transmitting circuits.
In Fig. 3: square frame 1, power unit circuit; Square frame 2, be the double wave pushbutton switch; Square frame 3, double wave oscillatory circuit; Square frame 4, double wave radio-circuit electronic switch; Square frame 5, double wave infrared ray circuit electronic switch; Square frame 8, double wave wireless encoding circuit; Square frame 9, double wave radio transmitter; The OR circuit of square frame 10, double wave infra-red code circuit live wire; The OR circuit of square frame 11, double wave infrared transmitter live wire; Square frame 14, single ripple (infrared ray) pushbutton switch; The OR circuit of square frame 15, single ripple (infrared ray) oscillatory circuit live wire; The OR circuit of square frame 16, single ripple (infrared ray) remote-transmitter live wire; Square frame 17, single ripple (infrared ray) oscillatory circuit; Square frame 18, single ripple (infrared ray) the 2 electric circuit electronics technical switches of encoding; Square frame 19, single ripple (infrared ray) the 1 electric circuit electronics technical switch of encoding; Square frame 20, single ripple (infrared ray) 2 circuit of encoding; The encode OR circuit of 2 circuit outputs of square frame 21, single ripple (infrared ray); Square frame 12, being double wave infra-red code circuit, is again the single ripple of square frame 22 (infrared ray) 1 circuit of encoding, and is the shared infra-red code circuit of double wave list ripple; Square frame 13, being double wave infrared line radiating circuit, is again the single ripple of square frame 24 (infrared ray) radiating circuit.Be the shared infrared transmitter of double wave list ripple.Square frame 23, being the OR circuit of double wave infra-red code circuit output, is again the encode OR circuit of 1 circuit output of the single ripple of square frame 26 (infrared ray), is the OR circuit of the shared infra-red code circuit output of double wave list ripple.
Embodiment
Fig. 3, meaned a kind of mode of concrete enforcement; In this concrete mode of implementing: a kind of automobile remote-control mixing remote-controlled launcher is comprised of a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit and power unit circuit
Double wave dicode remote controlled transmitting circuit is comprised of wireless remote control transmitter unit circuit and infrared remote-controlled transmitting element circuit, single ripple dicode remote-controlled launch unit circuit is the infrared remote-controlled transmitting circuit, and shares an infrared transmitter and share one of them infrared coding circuit with infrared remote-controlled transmitting element circuit and single ripple dicode infrared remote-controlled transmitting element circuit in double wave dicode remote controlled transmitting circuit unit.
As shown in Figure 3: square frame 1, power unit circuit; Square frame 2, be the double wave pushbutton switch; Square frame 3, double wave oscillatory circuit; Square frame 4, double wave radio-circuit electronic switch; Square frame 5, double wave infrared ray circuit electronic switch; Square frame 8, double wave wireless encoding circuit; Square frame 9, double wave radio transmitter; The OR circuit of square frame 10, double wave infra-red code circuit live wire; The OR circuit of square frame 11, double wave infrared transmitter live wire; Square frame 14, single ripple (infrared ray) pushbutton switch; The OR circuit of square frame 15, single ripple (infrared ray) oscillatory circuit live wire; The OR circuit of square frame 16, single ripple (infrared ray) remote-transmitter live wire; Square frame 17, single ripple (infrared ray) oscillatory circuit; Square frame 18, single ripple (infrared ray) the 2 electric circuit electronics technical switches of encoding; Square frame 19, single ripple (infrared ray) the 1 electric circuit electronics technical switch of encoding; Square frame 20, single ripple (infrared ray) 2 circuit of encoding; The encode OR circuit of 2 circuit outputs of square frame 21, single ripple (infrared ray); Square frame 12, being double wave infra-red code circuit, is again the single ripple of square frame 22 (infrared ray) 1 circuit of encoding, and is the shared infra-red code circuit of double wave list ripple; Square frame 13, being double wave infrared line radiating circuit, is again the single ripple of square frame 24 (infrared ray) radiating circuit.Be the shared infrared transmitter of double wave list ripple.Square frame 23, being the OR circuit of double wave infra-red code circuit output, is again the encode OR circuit of 1 circuit output of the single ripple of square frame 26 (infrared ray), is the OR circuit of the shared infra-red code circuit output of double wave list ripple.
In this circuit, OR circuit mainly rises and is used as isolating diode, also can directly with diode, replace.
Its principle of work is as follows:
This device is comprised of a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit and power unit circuit, and a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit is again by double wave dicode remote-controlled launch unit circuit, single ripple dicode remote-controlled launch unit the electric circuit constitute.
In single ripple dicode remote-controlled launch unit circuit, single ripple adopts infrared wave.
Share an infrared transmitter and share one of them infrared coding circuit with single ripple dicode remote-controlled launch unit circuit middle infrared (Mid-IR) remote controlled transmitting circuit in infrared remote-controlled transmitting circuit in double wave dicode remote-controlled launch unit circuit.
Double wave dicode remote-controlled launch unit circuit, when pressing double wave dicode remote-controlled launch unit double wave circuit button switch, double wave pushbutton switch one end connects positive source V
dD, the double wave pushbutton switch other end connects double wave oscillatory circuit live wire V
dD; Double wave oscillatory circuit ground wire is connected with the power unit circuit ground wire, the vibration of starting working that switches on power of double wave oscillatory circuit, two output terminal interval is respectively exported high and low current potential, and two output terminal connects respectively two control ends of two double wave electronic switching circuits; Termination of a double wave electronic switch and positive source V
dDbe connected, another termination is connected with two double wave OR circuit inputs, radio transmitter live wire V in the output of one of them double wave OR circuit and double wave wireless remote control radiating circuit
dDbe connected, the live wire V of the output of another double wave OR circuit and double wave wireless encoding circuit
dDbe connected, the output of double wave wireless encoding circuit is connected with the input of double wave radio transmitter; Termination of another one double wave electronic switch and positive source V
dDbe connected, its another termination of double wave electronic switch and other two double wave OR circuit inputs are connected, a double wave OR circuit in this group double wave or door export with double wave Infrared Remote-Control Sending circuit in double wave infrared transmitting circuit live wire V
dDbe connected, another output of double wave OR circuit and double wave infrared coding circuit live wire V in this group double wave OR circuit
dDbe connected, the output of double wave infrared coding circuit is connected with the input of other double wave OR circuit, and the output of its double wave OR circuit is connected with the input of double wave infrared transmitting circuit, and double wave infrared remote-controlled transmitting circuit ground is connected with power ground; When connecting double wave wireless remote control radiating circuit live wire V
dDthe control end of electronic switch unit while being high, the energising that switches on power of this double wave electronic switch, double wave radio transmitter in double wave wireless remote control radiating circuit, the live wire V of double wave wireless encoding circuit
dDbe communicated with power supply and start working, the output of double wave wireless encoding circuit signal is connected with the input of double wave radio transmitter, and double wave wireless encoding circuit signal is with the emission of double wave radio transmitter, and double wave wireless remote control radiating circuit completes launch mission.At this moment another output terminal due to the double wave oscillatory circuit is low, connects double wave Infrared Remote-Control Sending circuit live wire V
dDthe control end of double wave electronic switch be low, so the electronic switch of double wave Infrared Remote-Control Sending circuit cuts out, double wave Infrared Remote-Control Sending circuit is not launched.
When upset occurs in double wave oscillatory circuit state, the former end that is output as noble potential of its double wave oscillatory circuit, the output terminal that connects the double wave electronic switch controling end of double wave wireless remote control transmitter unit circuit, current potential is low by hypermutation, now double wave wireless electron switch cuts out, double wave wireless remote control radiating circuit is not launched, the former end that is output as electronegative potential of its double wave oscillating unit, the current potential that connects the output terminal of double wave Infrared Remote-Control Sending electric circuit electronics technical switch control end becomes height by hanging down, the electronic switch of this double wave Infrared Remote-Control Sending circuit is opened use, the energising of switch connection power supply, double wave infrared transmitting circuit in double wave Infrared Remote-Control Sending circuit, the live wire V of double wave infrared coding circuit
dDenergising is started working, the output of double wave infrared coding circuit signal is connected with the input of double wave infrared transmitting circuit through double wave or door, (also can without or door directly connected,) double wave infrared coding circuit signal is with the emission of double wave infrared transmitting circuit, double wave infrared remote-controlled transmitting circuit completes launch mission.
Circuit is alternation so repeatedly, realizes double wave wireless remote control radiating circuit in double wave dicode remote controlled transmitting circuit and the double wave infrared remote-controlled transmitting circuit double wave dicode remote-transmitter that hockets.
In this circuit, OR circuit mainly is used as isolating diode, and also available diode replaces.
Single ripple dicode radiating circuit can be the wireless remote control emission, can be also Infrared Remote-Control Sending, and its circuit unit can be independently, also can share a radiating circuit and a coding circuit with certain some in double wave dicode remote controlled transmitting circuit.
In single ripple dicode remote-controlled launch unit circuit, single ripple pushbutton switch one end in single ripple pushbutton switch circuit connects positive source V
dD, single ripple pushbutton switch other end connects an oscillatory circuit live wire V
dD,with a single ripple OR circuit input, the output of single ripple OR circuit and single ripple remote controlled transmitting circuit live wire V
dDbe connected, single ripple Infrared Remote-Control Sending circuit is connected with the power unit circuit ground wire with the oscillatory circuit ground wire; When the pushbutton switch by the ripple dicode remote controlled transmitting circuit that places an order, in infrared transmitter, the remote controlled transmitting circuit energising is started working, the oscillatory circuit vibration of also starting working that switches on power, high and low current potential is alternately exported respectively at two output terminal intervals of oscillatory circuit, and two output terminal connects respectively two control ends of two electronic switch units; Termination of an electronic switch and positive source V
dDbe connected, another termination and a coding circuit live wire V
dDbe connected, the output of its coding circuit is connected with another OR circuit input.This OR circuit output is connected with the input of Infrared Remote-Control Sending circuit, termination of another electronic switch and positive source V
dDbe connected, its another termination and another coding circuit live wire V
dDbe connected, OR circuit input of the output of this coding circuit and other is connected, and this OR circuit output is connected with the input of Infrared Remote-Control Sending circuit, in two electronic switching circuits, the electronic switch that its control end is a high position is open-minded, switches on power, and the coding circuit live wire V that it is connected
dDenergising work, coding circuit signal warp or door output to infrared transmitter, through Infrared Remote-Control Sending circuit emission output signal; The control end of another electronic switch unit is low, and its electronic switch cuts out, the coding circuit live wire V of its connection
dDwithout electricity, do not work; When upset occurs the oscillating unit state, control end was that low former control end of closing electronic switch is uprised by low originally, and electronic switch is open-minded, the coding circuit live wire V of its connection
dDelectricity work is arranged, and coding circuit signal output warp or door output to infrared transmitter, through radiating circuit emission output signal; Former control end is high electronic switch, and control end is by high step-down, and electronic switch cuts out, the coding circuit live wire V of its connection
dDwithout electricity, do not work.
Circuit is alternation so repeatedly, realizes the alternation of two kinds of coded signals in single ripple dicode remote controlled transmitting circuit, carries out single ripple dicode remote-transmitter.
In this circuit, OR circuit also mainly is used as isolating diode, also can directly with diode, replace.
Following prominent advantage is arranged after the invention process:
1, adopt the double wave dicode owing to dropping into and removing generalized case; Two ripples belong to the heterogeneity wavelength,, use wireless remote control and infra-red remote control, the coding of two ripples is different again, so to adopting demoder, grab a yard device and catch with radio scanner criminal offence resistivity strong.
2, when meeting strong interference wireless remote control inefficacy, the double wave decoding can't be worked, and available backup closely infrared ray list ripple is two, removes.
3, can and shut whole car doors after central controlled lock automatically close, warning system automatic throw-in device is used in conjunction with, convenient, modern sense is strong.Effectively raise the automotive safety coefficient, stoped the criminal offence of using interference unit, demoder and so on crime one's share of expenses for a joint undertaking, for the car owner reduces unnecessary economic loss.
4, a kind of automobile remote-control mixing remote-controlled launcher is arranged on a launch-box, easy to use.
5, simple, easily production installation, stable and reliable for performance.
Except above embodiment, can also adopt: the individual single ripple in a kind of automobile remote-control mixing remote-controlled launcher is radiowave, wireless remote control radiating circuit in double wave dicode remote-controlled launch unit circuit can be an own independent radio transmitter and a wireless encoding circuit, also can share a radio transmitter and share a wireless encoding circuit with wireless remote control radiating circuit in single ripple dicode remote-controlled launch unit circuit when single ripple dicode remote-controlled launch unit circuit adopts wireless wave, form a kind of automobile remote-control mixing remote-controlled launcher with this, respectively as the embodiment that drops into and remove operation.
Claims (6)
1. an automobile remote-control mixing remote-controlled launcher, it is characterized in that: by a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit and power unit circuit, formed, a kind of double wave dicode list ripple dicode remote-controlled launch unit circuit is again by double wave dicode remote-controlled launch unit circuit, single ripple dicode remote-controlled launch unit the electric circuit constitute;
Double wave dicode remote-controlled launch unit circuit is by double wave pushbutton switch circuit, the double wave oscillatory circuit, and the double wave electronic switching circuit, double wave wireless remote control radiating circuit, double wave infrared remote-controlled transmitting circuit, the double wave OR circuit forms; Double wave wireless remote control radiating circuit is again by the double wave radio transmitter, double wave wireless encoding circuit, and the double wave OR circuit forms; Double wave infrared remote-controlled transmitting circuit is by the double wave infrared transmitting circuit, double wave infrared coding circuit, and the double wave OR circuit forms; In double wave dicode remote-controlled launch unit circuit, double wave pushbutton switch one end connects positive source V
dD, the double wave pushbutton switch other end connects double wave oscillatory circuit live wire V
dD; Double wave oscillatory circuit ground wire is connected with the power unit circuit ground wire, and two output terminals of double wave oscillatory circuit connect respectively two control ends of two double wave electronic switching circuits; Termination of one of them double wave electronic switch and positive source V
dDbe connected, another termination is connected with two double wave OR circuit inputs, double wave radio transmitter live wire V in the output of an one double wave OR circuit and double wave wireless remote control radiating circuit
dDbe connected, the live wire V of the output of another double wave OR circuit and double wave wireless encoding circuit
dDbe connected, the output of double wave wireless encoding circuit is connected with the input with the double wave radio transmitter; Termination of another one double wave electronic switch and positive source V
dDbe connected, wherein another termination of double wave electronic switch and other two double wave OR circuit inputs are connected, in this double wave OR circuit export with double wave infrared remote-controlled transmitting circuit in double wave infrared transmitting circuit live wire V
dDbe connected, the output of this another double wave OR circuit and double wave infrared coding circuit live wire V
dDbe connected, the output of double wave infrared coding circuit is connected with the input of other double wave OR circuit, and the output of its double wave OR circuit is connected with the input of double wave infrared transmitting circuit, and double wave infrared remote-controlled transmitting circuit ground is connected with power cathode;
Single ripple dicode remote-controlled launch unit circuit is by single ripple pushbutton switch circuit, single ripple OR circuit, single ripple oscillatory circuit, single ripple electronic switching circuit, single ripple remote controlled transmitting circuit, single ripple coding circuit forms, and in single ripple pushbutton switch circuit, a termination of switch is connected with positive source, another termination is connected with two, single ripple or an input, output and single ripple remote controlled transmitting circuit live wire V of one of them single ripple or door
dDconnect single ripple remote controlled transmitting circuit live wire V
dDalso with the output of other OR circuit, be connected, single ripple remote controlled transmitting circuit ground wire is connected with power ground.
2. the output of another single ripple or social connections and single ripple oscillatory circuit live wire V
dDbe connected, single ripple oscillatory circuit ground wire is connected with power ground; Two output terminals of single ripple oscillatory circuit connect respectively two control ends of two single ripple electronic switches; Termination of one of them single ripple electronic switch and positive source V
dDbe connected, the live wire V of another termination of single ripple electronic switch and a single ripple coding circuit
dDbe connected, the live wire V of this list ripple coding circuit
dDalso with the output of other single ripple OR circuit, be connected, the output of single ripple coding circuit is connected with an other single ripple OR circuit input, the output of this list ripple OR circuit is connected with the input of single ripple remote controlled transmitting circuit, termination of another single ripple electronic switch and positive source V
dDbe connected, the live wire V of its another termination and another single ripple coding circuit
dDbe connected, the output of this list ripple coding circuit is connected with other single ripple OR circuit input, and the output of its single ripple OR circuit is connected with the input of single ripple remote controlled transmitting circuit.
3. a kind of automobile remote-control mixing remote-controlled launcher according to claim 1, is characterized in that in single ripple dicode radiating circuit unit, and single ripple adopts infrared wave.
4. a kind of automobile remote-control mixing remote-controlled launcher according to claim 1, is characterized in that in single ripple dicode radiating circuit unit, and single ripple adopts radiowave.
5. a kind of automobile remote-control mixing remote-controlled launcher according to claim 1, it is characterized in that in double wave dicode remote controlled transmitting circuit unit, share an infrared transmitter while in Infrared Remote-Control Sending element circuit and single ripple dicode radiating circuit unit, adopting the infrared remote-controlled transmitting circuit and share one of them infrared coding circuit.
6. a kind of automobile remote-control mixing remote-controlled launcher according to claim 1, it is characterized in that in double wave dicode remote controlled transmitting circuit unit, share a radio transmitter while in wireless remote control transmitter unit circuit and single ripple dicode radiating circuit unit, adopting the wireless remote control radiating circuit and share one of them wireless encoding circuit.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201110393764 CN103136917A (en) | 2011-12-02 | 2011-12-02 | Automobile hybrid remote control transmitting device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201110393764 CN103136917A (en) | 2011-12-02 | 2011-12-02 | Automobile hybrid remote control transmitting device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN103136917A true CN103136917A (en) | 2013-06-05 |
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ID=48496694
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201110393764 Pending CN103136917A (en) | 2011-12-02 | 2011-12-02 | Automobile hybrid remote control transmitting device |
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| Country | Link |
|---|---|
| CN (1) | CN103136917A (en) |
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Application publication date: 20130605 |