CN109002316A - The light emitting diode and its system and imprinting address approach of reception non-contact type signal - Google Patents

Abstract

The invention discloses a kind of light emitting diodes for receiving non-contact type signal, and it includes an at least light emitting diode and a light emitting diode drive devices；The light emitting diode drive device includes an imprinting signal detection device, an address imprinting controller, an addressed memory and a LED driving circuit；The imprinting signal detection device wirelessly receives a radio address signal from external, and the radio address signal is converted into the machine address signal；The imprinting signal detection device transmits the machine address signal to the address imprinting controller；Address imprinting controller imprinting the machine address signal makes the addressed memory store the machine address date to the addressed memory；By the technical program, can the imprinting of the machine address signal be stored or be changed into the light emitting diode drive device for having manufactured completion the machine address date and imprinting can be repeated；In addition, from Power Carrier, the present invention can avoid general carrier signal being mistaken for imprinting signal engraving data when compared to imprinting.

Description

The light emitting diode and its system and imprinting address approach of reception non-contact type signal

Technical field

The present invention relates to a kind of light emitting diode and its systems and imprinting address approach, non-especially with regard to a kind of reception The light emitting diode and its system and imprinting address approach of contact signal.

Background technique

Currently, the common lamp being made of light emitting diode includes two kinds of forms: what tandem type light emitting diode was constituted The lamp that lamp and parallel-connected type light-emitting diode are constituted；What the lamp and parallel-connected type light-emitting diode that tandem type light emitting diode is constituted were constituted Lamp is required using several power lines and signal wire, very waste wire rod；Later, by the technology quilt of power line transmission luminous signal It proposes to save signal wire, wherein luminous signal includes light-emitting data and address date.

When light emitting diode drive device is manufactured, the machine address date must be seted out by imprinting optical diode driving dress It sets；When light emitting diode drive device receives above-mentioned luminous signal, light emitting diode drive device can check luminous signal Whether address date is identical as the machine address date of light emitting diode drive device；If the address date and hair of luminous signal The machine address date of optical diode driving device is identical, then light-emitting data of the light emitting diode drive device according to luminous signal Drive lumination of light emitting diode.

However, the shortcomings that above method is once light emitting diode drive device is completed by manufacture, the machine address date is It is immutable；Therefore, very inconvenient for warehousing management.Furthermore for assembling a large amount of light emitting diode driving dress It is also very inconvenient for setting, because operator must carefully check the machine number of addresses of each light emitting diode drive device According to avoid incorrect light emitting diode drive device is assembled.

Summary of the invention

The shortcomings that improve above-mentioned known technology, the purpose of the present invention is to provide a kind of hairs for receiving non-contact type signal Optical diode.

The shortcomings that improve above-mentioned known technology, another object of the present invention is to provide a kind of reception non-contact type signals Light-emitting diode system.

The shortcomings that improve above-mentioned known technology, another object of the present invention is to provide a kind of reception non-contact type signal Light emitting diode imprinting address approach.

To reach above-mentioned purpose of the invention, the light emitting diode of reception non-contact type signal of the invention includes: at least One light emitting diode；And a light emitting diode drive device, it is electrically connected to the light emitting diode；Wherein the light emitting diode drives Dynamic device includes: an imprinting signal detection device；One address imprinting controller is electrically connected to the imprinting signal detection device；One ground Location memory is electrically connected to the address imprinting controller；And a LED driving circuit, it is electrically connected to the light-emitting diodes Pipe and the addressed memory；Wherein the imprinting signal detection device wirelessly receives a radio address signal from external；The imprinting signal Detector converts the radio address signal as the machine address signal；The imprinting signal detection device transmits the machine address signal To the address imprinting controller；Address imprinting controller imprinting the machine address signal makes in the address to the addressed memory Deposit the machine address date.

As a further improvement of the present invention, wherein the imprinting signal detection device wirelessly sequentially receives one wirelessly from external Initial signal and the radio address signal；The imprinting signal detection device converts the wireless initial signal as a wired starting letter Number；The imprinting signal detection device sequentially transmits wired initial signal and the machine address signal to the address imprinting controller； When the address, imprinting controller receives wired initial signal, address imprinting controller imprinting the machine address signal is extremely The addressed memory makes the addressed memory store the machine address date.

As further improvement of the invention, also include: a positive contact；Wherein the light emitting diode drive device also wraps Contain: a signal conversion unit is electrically connected to the positive contact；One address and data identification device are electrically connected to signal conversion Unit；One logic controller is electrically connected to the address and data identification device and the addressed memory；One bit shift register, electrically It is connected to the logic controller；One output state is electrically connected to the bit shift register and the LED driving circuit； One Address Register is electrically connected to the address and data identification device and the logic controller；And an address comparator, electrically connect It is connected to the logic controller, the Address Register and the addressed memory, wherein the signal conversion unit receives one from the positive contact First signal；The signal conversion unit convert first signal as a second signal and transmit the second signal to the address with Data identification device；The address and data identification device recognize the second signal to obtain a third signal, and the third signal includes One address date and a light-emitting data；The address and data identification device transmit the third signal to the logic controller；The logic Controller transmits the address date to the Address Register；The address comparator compares the address date and is stored in the address The machine address date deposited；Wherein if the address date is identical as the machine address date, address comparator notice The logic controller makes the logic controller transmit the light-emitting data to the hair by the bit shift register and the output state Optical diode driving circuit；According to the light-emitting data, which drives the lumination of light emitting diode.

As further improvement of the invention, also include: a negative contact；Wherein the light emitting diode drive device also wraps Contain: a voltage-stablizer is electrically connected to the positive contact, the negative contact and the signal conversion unit；And an oscillator, it is electrically connected to The positive contact, the voltage-stablizer, the signal conversion unit, the address and data identification device, the logic controller, the bit shift register And the output state.

As further improvement of the invention, wherein the signal conversion unit includes: certain voltage generator electrically connects It is connected to the positive contact；One voltage subtraction device is electrically connected to the constant voltage generator；And a traffic filter, it is electrically connected to The voltage subtraction device and the address and data identification device.

As further improvement of the invention, wherein the light emitting diode drive device also includes: a voltage source；Wherein The imprinting signal detection device includes: an optical module is electrically connected to the voltage source；One amplifier is electrically connected to the optics Component；One signal detection device is electrically connected to the amplifier and the address imprinting controller；And a resistance, it is electrically connected to this Amplifier and the optical module, wherein the optical module wirelessly sequentially from it is external receive a wireless initial signal and this wirelessly Location signal；The optical module incudes and converts the wireless initial signal as one first inductive signal；The optical module incudes simultaneously The radio address signal is converted as one second inductive signal；The amplifier amplifies first inductive signal to be put with obtaining one first Big signal；The amplifier amplifies second inductive signal to obtain one second amplified signal；The signal detection device detect this first Amplified signal is to obtain a wired initial signal；The signal detection device detects second amplified signal to obtain the machine address letter Number.

As further improvement of the invention, wherein the optical module is a PN interface, a photistor or a light Electric diode.

To reach above-mentioned another object of the invention, the light-emitting diode system packet of reception non-contact type signal of the invention Contain: the light emitting diode of the reception non-contact type signal as described above；And a recorder, radio connection connect to the reception is non- The light emitting diode of touch signal；Wherein the recorder includes: a smooth transmission unit；And a light receiving unit, it is electrically connected to The light transmission unit；Wherein the light transmission unit Wireless transceiver wireless initial signal and the radio address signal are non-to the reception The light emitting diode of contact signal；Judge whether the machine address date is correct by the recorder.

As a further improvement of the present invention, wherein the light receiving unit is a PN interface, a photistor or a light Electric diode.

As further improvement of the invention, wherein the light emitting diode of the reception non-contact type signal converts the machine Address date becomes wireless the machine address date；Light emitting diode in the light emitting diode of the reception non-contact type signal dodges It is bright to shine to transmit wireless the machine address date to the light receiving unit, so that the recorder is converted wireless the machine address date As the machine address date to judge whether the machine address date is correct.

To reach an above-mentioned further object of the invention, the imprinting of the light emitting diode of reception non-contact type signal of the invention Address approach includes: the light emitting diode as described above for receiving non-contact type signal wirelessly receives a wireless communication from external Number；The light emitting diode of the reception non-contact type signal judges whether the wireless signal includes a wireless initial signal；If should Wireless signal includes the wireless initial signal, then the light emitting diode of the reception non-contact type signal carries out an imprinting program, will The machine address date is converted to included in a radio address signal of the wireless signal and stores the machine address date in one In addressed memory；And if the wireless signal do not include the wireless initial signal, the reception non-contact type signal shine two Pole pipe is without the imprinting program.

As further improvement of the invention, also completing included in the light emitting diode of the reception non-contact type signal should After imprinting program, carry out a proving program, by the machine address date being stored in the addressed memory be wirelessly transmitted to One authentication module, make the authentication module judge wireless receiving to the machine address date whether wrapped with the radio address signal The machine address date contained is identical.

Effect of the invention is to drive the machine address signal imprinting into the light emitting diode completed by manufacture Device is to store or change the machine address date.

Detailed description of the invention

Fig. 1 is the module map of the light emitting diode of reception non-contact type signal of the invention.

Fig. 2 is the module map of imprinting signal detection device of the invention.

Fig. 3 is the stream of an embodiment of the imprinting address approach of the light emitting diode of reception non-contact type signal of the invention Cheng Tu.

Fig. 4 is the module map of the light-emitting diode system of reception non-contact type signal of the invention.

Fig. 5 is another embodiment of the imprinting address approach of the light emitting diode of reception non-contact type signal of the invention Flow chart.

Symbol indicates in figure:

1 receives the light emitting diode of non-contact type signal；2 recorders；3 receive the light-emitting diodes piping of non-contact type signal System；10 light emitting diode drive devices；20 light emitting diodes；21 smooth transmission units；22 light receiving units；102 just connect Point；104 negative contacts；106 voltage-stablizers；108 signal conversion units；110 addresses and data identification device；112 logic controls Device；114 bit shift registers；116 output states；118 LED driving circuits；120 Address Registers；122 ground Location comparator；124 addressed memories；126 address imprinting controllers；128 imprinting signal detection devices；130 oscillators；202 nothings Line initial signal；204 radio address signals；206 wired initial signals；208 the machine address signals；210 first induction letters Number；212 second inductive signals；214 first amplified signals；216 second amplified signals；302 first signals；304 second letters Number；306 third signals；308 address dates；310 light-emitting datas；312 the machine address dates；314 wireless the machine number of addresses According to；10802 constant voltage generators；10804 voltage subtraction devices；10806 traffic filters；12802 optical modules；12804 Amplifier；12806 signal detection devices；12808 resistance；S02~S14 step；T02~T16 step；VDD voltage source.

Specific embodiment

The technical content and a detailed description for the present invention, cooperation schema are described as follows:

Refering to what is shown in Fig. 1, the module map of the light emitting diode for reception non-contact type signal of the invention.One reception is contactless The light emitting diode 1 of signal is applied to a recorder 2；The light emitting diode 1 of the reception non-contact type signal includes one luminous two Pole pipe driving device 10, at least a light emitting diode 20, a positive contact 102 and a negative contact 104；Light emitting diode driving dress Set 10 comprising a voltage-stablizer 106, a signal conversion unit 108, an address and data identification device 110, a logic controller 112, One bit shift register 114, an output state 116, a LED driving circuit 118, an Address Register 120, a ground Location comparator 122, an addressed memory 124, an address imprinting controller 126, an imprinting signal detection device 128 and an oscillator 130；The signal conversion unit 108 includes certain voltage generator 10802, a voltage subtraction device 10804 and a traffic filter 10806.The voltage subtraction device 10804 can also be replaced by a voltage comparator.

The light emitting diode drive device 10 is electrically connected to the light emitting diode 20；The voltage-stablizer 106 is electrically connected to The positive contact 102, the negative contact 104 and the signal conversion unit 108；The signal conversion unit 108 is electrically connected to this and just connects Point 102；The address and data identification device 110 are electrically connected to the signal conversion unit 108；The logic controller 112 electrically connects It is connected to the address and data identification device 110 and the addressed memory 124；The bit shift register 114 is electrically connected to the logic control Device 112；The output state 116 is electrically connected to the bit shift register 114 and the LED driving circuit 118；The hair Optical diode driving circuit 118 is electrically connected to the light emitting diode 20 and the addressed memory 124；120 electricity of Address Register Property is connected to the address and data identification device 110 and the logic controller 112；The address comparator 122 is electrically connected to this and patrols Collect controller 112, the Address Register 120 and the addressed memory 124；The addressed memory 124 is electrically connected to the address imprinting Controller 126；The address imprinting controller 126 is electrically connected to the imprinting signal detection device 128；The oscillator 130 electrically connects It is connected to the positive contact 102, the voltage-stablizer 106, the signal conversion unit 108, the address and data identification device 110, the logic control Device 112, the bit shift register 114 and the output state 116 processed；The constant voltage generator 10802 is electrically connected to this and just connects Point 102；The voltage subtraction device 10804 is electrically connected to the constant voltage generator 10802；The traffic filter 10806 electrically connects It is connected to the voltage subtraction device 10804 and the address and data identification device 110.

The imprinting signal detection device 128 wirelessly from external (i.e. from the recorder 2) receive a wireless initial signal 202 and One radio address signal 204；The imprinting signal detection device 128, which converts the wireless initial signal 202, becomes a wired initial signal 206 and the radio address signal 204 is converted as the machine address signal 208；The imprinting signal detection device 128 sequentially transmits should Wired initial signal 206 and the machine address signal 208 are to the address imprinting controller 126；When the address imprinting controller 126 When receiving wired initial signal 206, in 126 imprinting of address imprinting controller the machine address signal 208 to the address 124 are deposited, so that the addressed memory 124 stores the machine address date 312.

The signal conversion unit 108 receives one first signal 302 from the positive contact 102；The signal conversion unit 108 conversion First signal 302 becomes a second signal 304 and transmits the second signal 304 to the address and data identification device 110；The ground Location and data identification device 110 recognize the second signal 304 to obtain a third signal 306, and the third signal 306 is comprising one Location data 308 and a light-emitting data 310；The address and data identification device 110 transmit the third signal 306 to the logic controller 112；The logic controller 112 transmits the address date 308 to the Address Register 120；The address comparator 122 compares the ground Location data 308 and the machine address date 312 for being stored in the addressed memory 124.If the address date 308 and the machine Location data 312 are identical, then the address comparator 122 notifies the logic controller 112, so that the logic controller 112 is by being somebody's turn to do Bit shift register 114 and the output state 116 transmit the light-emitting data 310 to the LED driving circuit 118；Foundation The light-emitting data 310, the LED driving circuit 118 drive the light emitting diode 20 to shine.

Furthermore non-contact type signal of the invention can be optical signal, infrared signal, high-frequency signal etc..If there is must It wants, an end signal can be added to indicate that the wireless initial signal 202 and radio address signal 204 are complete in the present invention Ground transmitting.The addressed memory 124 can for an One Time Programmable (one time programmable) memory or one it is muptiple-use can It programs (multiple time programmable) memory, such as an electrical fuse (e-fuse) memory, one erasable compiles Journey read-only memory (erasable programmable read only memory, ERPOM), an electrically erasable programmable are only Read memory (electrically erasable programmable read only memory, EEPROM) or a quick flashing (flash) memory.

Refering to what is shown in Fig. 2, being the module map of imprinting signal detection device of the invention.The light emitting diode drive device 10 is also Include a voltage source VDD；The imprinting signal detection device 128 is detectd comprising an optical module 12802, an amplifier 12804, a signal Survey device 12806 and a resistance 12808.The optical module 12802 is electrically connected to voltage source VDD；The amplifier 12804 is electrically It is connected to the optical module 12802；The signal detection device 12806 is electrically connected to the amplifier 12804 and the address imprinting control Device 126 processed；The resistance 12808 is electrically connected to the amplifier 12804 and the optical module 12802.

The optical module 12802 wirelessly sequentially receives the wireless initial signal 202 and the radio address signal from external The 204(recorder 2 wirelessly can also sequentially transmit the wireless initial signal 202 and the radio address signal 204 to the optics group Part 12802)；The optical module 12802 incudes and converts the wireless initial signal 202 as one first inductive signal 210；The light Component 12802 is learned to incude and convert the radio address signal 204 as one second inductive signal 212；The amplifier 12804 amplification First inductive signal 210 is to obtain one first amplified signal 214；The amplifier 12804 amplify second inductive signal 212 with Obtain one second amplified signal 216；The signal detection device 12806 detects first amplified signal 214 to obtain wired starting Signal 206；The signal detection device 12806 detects second amplified signal 216 to obtain the machine address signal 208.

The optical module 12802 is a PN interface, a photistor or the photodiode in an integrated circuit；It should The irradiation of PN interface light can generate leaky as signal source.

Refering to what is shown in Fig. 4, the module map of the light-emitting diode system for reception non-contact type signal of the invention；Fig. 4 institute The component shown is identical as Fig. 1 and component shown in Fig. 2, be it is succinct, be not repeated to describe herein.One receives non-contact type signal Light-emitting diode system 3(hereinafter referred to as light-emitting diode system 3) include the reception non-contact type signal as described above Light emitting diode 1 and a recorder 2；2 radio connection of recorder to the reception non-contact type signal light emitting diode 1；The recorder 2 includes a smooth transmission unit 21 and a light receiving unit 22；The light receiving unit 22 is electrically connected to light hair Send unit 21.

21 Wireless transceiver of the light transmission unit wireless initial signal 202 and the radio address signal 204 are non-to the reception The light emitting diode 1 of contact signal；The light emitting diode 1 of the reception non-contact type signal converts the machine address date 312 As wireless the machine address date 314；20 flashing of light emitting diode with transmit wireless the machine address date 314 to The light receiving unit 22 so that the recorder 2 convert wireless the machine address date 314 become the machine address date 312 with Judge whether the machine address date 312 is correct.The light receiving unit 22 is a PN interface, a photistor or a photoelectricity two Pole pipe.

Furthermore in addition to it is above-mentioned by the recorder 2 judge the machine address date 312 it is whether correct in a manner of other than, this hair It is bright that the above-mentioned address date 308 and the light-emitting data 310 can also be used to judge whether the machine address date 312 is correct；Such as Preceding described, if the address date 308 is identical as the machine address date 312, according to the light-emitting data 310, this luminous two Pole pipe driving circuit 118 drives the light emitting diode 20 to shine；Therefore, if the light emitting diode 20 can shine, the machine Address date 312 is judged as correctly；If the light emitting diode 20 cannot shine, which is judged It is incorrect.

Refering to what is shown in Fig. 3, one of the imprinting address approach for the light emitting diode of reception non-contact type signal of the invention The flow chart of embodiment.The imprinting address approach of the light emitting diode of reception non-contact type signal of the invention includes following step It is rapid:

S02: one recorder of step wirelessly sequentially transmits a wireless initial signal and a radio address signal to an imprinting signal Detector.

Step S04: the imprinting signal detection device converts the wireless initial signal as a wired initial signal and conversion is somebody's turn to do Radio address signal becomes the machine address signal.

Step S06: the imprinting signal detection device transmits wired initial signal and the machine address signal a to address is carved Record controller.

Step S08: the address imprinting controller judges whether the address imprinting controller receives wired initial signal, If it is not, entering step S10；If so, then entering step S12.

Step S10: the address imprinting controller ignores the machine address signal.It is subsequently returning to step S02.

Step S12: address imprinting controller imprinting the machine address signal is to an addressed memory, so that the addressed memory Store the machine address date.

Step S14: using a light emitting diode (such as the light emitting diode 20 shown in FIG. 1) flashing to transmit this The machine address date judges whether the machine address date is correct to the recorder.If the recorder judges the machine address Error in data, then the recorder retransfers the wireless initial signal and the radio address signal to the imprinting signal detection device. If the recorder judges that the machine address date is correct, terminate process, or carries out another and receive non-contact type signal The address imprinting of light emitting diode.And this step of notice S14 is to be to verify the machine address date whether correct, not this hair The steps necessary of bright imprinting address approach.

Refering to what is shown in Fig. 5, being the another of the imprinting address approach of the light emitting diode of reception non-contact type signal of the invention The flow chart of one embodiment.The imprinting address approach of the light emitting diode of reception non-contact type signal of the invention includes following step It is rapid:

Step T02: the light emitting diode of the reception non-contact type signal wirelessly receives a wireless signal from external.

Step T04: the light emitting diode of the reception non-contact type signal judges whether the wireless signal includes one wireless Beginning signal.If the wireless signal does not include the wireless initial signal, T06 is entered step；If the wireless signal includes should Wireless initial signal, then enter step T08.

Step T06: the light emitting diode of the reception non-contact type signal is without an imprinting program.It is subsequently returning to step T02。

Step T08: the light emitting diode of the reception non-contact type signal carries out the imprinting program, will be included in the wireless communication Number a radio address signal be converted to the machine address date and store the machine address date in an addressed memory.At this After the light emitting diode of reception non-contact type signal completes the imprinting program, T10 is entered step.

Step T10: a proving program is carried out, the machine address date being stored in the addressed memory is wirelessly transmitted To an authentication module.

Step T12: whether the authentication module judges the machine address date that wireless receiving arrives with the radio address signal The machine address date for being included is identical.If identical, T14 is entered step；If it is different, then entering step T16.

Step T14: terminating process, or carries out the address imprinting for the light emitting diode that another receives non-contact type signal.

Step T16: the authentication module notifies the light emitting diode of the reception non-contact type signal to be stored in the ground to remove The machine address date in the memory of location.It is subsequently returning to step T02.

Notice above-mentioned steps T10~16 are to be to verify the machine address date whether correct, and the imprinting of non-present invention The steps necessary of address approach.

Effect of the invention is to drive 208 imprinting of the machine address signal into the light emitting diode completed by manufacture Device 10 can repeat imprinting to store or change the machine address date 312.Furthermore engraving data is by electricity when compared to imprinting Source carrier wave, the present invention can avoid general carrier signal being mistaken for imprinting signal.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art is in technical scope disclosed by the invention, and any changes or substitutions that can be easily thought of, all answers It is included within the scope of the present invention.

Claims (12)

1. it is a kind of receive non-contact type signal light emitting diode, characterized by comprising:

An at least light emitting diode；And

One light emitting diode drive device is electrically connected to the light emitting diode,

Wherein the light emitting diode drive device includes:

One imprinting signal detection device；

One address imprinting controller, is electrically connected to the imprinting signal detection device；

One addressed memory is electrically connected to the address imprinting controller；And

One LED driving circuit is electrically connected to the light emitting diode and the addressed memory,

Wherein the imprinting signal detection device wirelessly receives a radio address signal from external；The imprinting signal detection device turns The radio address signal is changed as the machine address signal；The imprinting signal detection device transmits the machine address signal extremely The address imprinting controller；The machine address signal described in the address imprinting controller imprinting makes institute to the addressed memory It states addressed memory and stores the machine address date.

2. receiving the light emitting diode of non-contact type signal as described in claim 1, which is characterized in that the wherein imprinting letter Number detector wirelessly sequentially receives a wireless initial signal and the radio address signal from external；The imprinting signal detection Device, which converts the wireless initial signal, becomes a wired initial signal；The imprinting signal detection device sequentially transmits described wired Beginning signal and the machine address signal are to the address imprinting controller；Have described in being received when the address imprinting controller When line initial signal, the machine address signal described in the address imprinting controller imprinting makes the address to the addressed memory The machine address date described in memory storage.

3. receiving the light emitting diode of non-contact type signal as described in claim 1, which is characterized in that also include:

One positive contact,

Wherein the light emitting diode drive device also includes:

One signal conversion unit is electrically connected to the positive contact；

One address and data identification device, are electrically connected to the signal conversion unit；

One logic controller is electrically connected to the address and data identification device and the addressed memory；

One bit shift register is electrically connected to the logic controller；

One output state is electrically connected to the bit shift register and the LED driving circuit；

One Address Register is electrically connected to the address and data identification device and the logic controller；And

One address comparator is electrically connected to the logic controller, the Address Register and the addressed memory,

Wherein the signal conversion unit receives one first signal from the positive contact；Signal conversion unit conversion described the One signal becomes a second signal and transmits the second signal to the address and data identification device；It is distinguished with data the address Know device and recognizes the second signal to obtain a third signal, and the third signal includes an address date and a luminous number According to；The address and data identification device transmit the third signal to the logic controller；The logic controller transmits institute Address date is stated to the Address Register；The address comparator address date and it is stored in the addressed memory The machine address date；

Wherein if the address date is identical as the machine address date, the address comparator notifies the logic control Device processed makes the logic controller transmit the light-emitting data to described by the bit shift register and the output state LED driving circuit；According to the light-emitting data, the LED driving circuit drives the light emitting diode It shines.

4. receiving the light emitting diode of non-contact type signal as claimed in claim 3, which is characterized in that also include:

One negative contact,

Wherein the light emitting diode drive device also includes:

One voltage-stablizer is electrically connected to the positive contact, the negative contact and the signal conversion unit；And

One oscillator is electrically connected to the positive contact, the voltage-stablizer, the signal conversion unit, the address and data Identifier, the logic controller, the bit shift register and the output state.

5. receiving the light emitting diode of non-contact type signal as claimed in claim 3, which is characterized in that wherein the signal turns Changing unit includes:

Certain voltage generator is electrically connected to the positive contact；

One voltage subtraction device is electrically connected to the constant voltage generator；And

One traffic filter is electrically connected to the voltage subtraction device and the address and data identification device.

6. as described in claim 1 receive non-contact type signal light emitting diode, which is characterized in that wherein it is described shine two Pole pipe driving device also includes:

One voltage source,

Wherein the imprinting signal detection device includes:

One optical module is electrically connected to the voltage source；

One amplifier is electrically connected to the optical module；

One signal detection device is electrically connected to the amplifier and the address imprinting controller；And

One resistance is electrically connected to the amplifier and the optical module,

Wherein the optical module wirelessly sequentially receives a wireless initial signal and the radio address signal from external；It is described Optical module incudes and converts the wireless initial signal as one first inductive signal；The optical module incudes and converts institute Radio address signal is stated as one second inductive signal；The amplifier amplifies first inductive signal to be put with obtaining one first Big signal；The amplifier amplifies second inductive signal to obtain one second amplified signal；The signal detection device detecting First amplified signal is to obtain a wired initial signal；The signal detection device detects second amplified signal to obtain The machine address signal.

7. receiving the light emitting diode of non-contact type signal as claimed in claim 6, which is characterized in that the wherein optics group Part is a PN interface, a photistor or a photodiode.

8. it is a kind of receive non-contact type signal light-emitting diode system, characterized by comprising:

The light emitting diode as described in any one of claim 1 to 7 for receiving non-contact type signal；And

One recorder, radio connection to the light emitting diode for receiving non-contact type signal,

Wherein the recorder includes:

One smooth transmission unit；And

One light receiving unit is electrically connected to the smooth transmission unit,

Wherein the wireless initial signal of the smooth transmission unit Wireless transceiver one and a radio address signal are non-contact to the reception The light emitting diode of formula signal；The recorder judges whether the machine address date is correct.

9. receiving the light-emitting diode system of non-contact type signal as claimed in claim 8, which is characterized in that the wherein light Receiving unit is a PN interface, a photistor or a photodiode.

10. receiving the light-emitting diode system of non-contact type signal as claimed in claim 8, which is characterized in that wherein described The light emitting diode for receiving non-contact type signal, which converts the machine address date, becomes wireless the machine address date；It is described to connect The LED flash received in the light emitting diode of non-contact type signal shines to transmit wireless the machine address date extremely The light receiving unit, so that the recorder is converted wireless the machine address date becomes the machine address date to judge Whether the machine address date is correct.

11. it is a kind of receive non-contact type signal light emitting diode imprinting address approach, characterized by comprising:

A. the light emitting diode as described in any one of claim 1 to 7 for receiving non-contact type signal is wirelessly received from external One wireless signal；

B. the light emitting diode for receiving non-contact type signal judges whether the wireless signal includes a wireless starting letter Number；

C. if the wireless signal includes the wireless initial signal, the light-emitting diodes for receiving non-contact type signal Pipe carries out an imprinting program, and the radio address signal for being included in the wireless signal is converted to the machine address date and is stored up The machine address date is deposited in an addressed memory；

D. described to receive luminous the two of non-contact type signal if the wireless signal does not include the wireless initial signal Pole pipe is without the imprinting program.

12. receiving the imprinting address approach of the light emitting diode of non-contact type signal as claimed in claim 11, feature exists In also including:

E. after the light emitting diode for receiving non-contact type signal completes the imprinting program, a proving program is carried out, The machine address date being stored in the addressed memory is wirelessly transmitted to an authentication module, the authentication module is made Judge wireless receiving to the machine address date the machine number of addresses for whether being included with the radio address signal According to identical.