CN110290587A - A kind of narrow frequency means of communication of multichannel and its system and lighting apparatus - Google Patents

Abstract

A kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, the narrow frequency means of communication of the multichannel are comprising steps of be divided at least two narrow frequency communication frequency bands for a communication frequency band, communication frequency wherein per the narrow frequency communication frequency band is different, and sends at least one first channel signal in the wherein one narrow frequency communication frequency band；First channel signal is received with the narrow frequency communication frequency band in correspondence first channel signal, distinguishes the different channels signal in the same communication frequency band by the different narrow frequency communication frequency bands not need coordinator.

Description

A kind of narrow frequency means of communication of multichannel and its system and lighting apparatus

Technical field

The present invention relates to communication technique fields, more particularly to a kind of narrow frequency means of communication of multichannel and its system and illumination Equipment.

Background technique

The problem of traditional mechanics of communication usually there will be co-channel interference, i.e., when logical under identical frequency range channel (channel) When interrogating, and sending signal simultaneously, receiver often causes received signal to be interfered, or communication data can be caused stifled Plug/queuing, or even the case where do not receive any signal.The principle of this interference is mainly: when receiver is being in reception When in decoding data, another transmitter just sends the data of same frequency again, then the data that will bother/influence receiver connect The accuracy of receipts.For example, there are two transmitter A and B and receiver C, when transmitter A and B use identical frequency Section, and when emitting wireless messages simultaneously, then receiver C will be unable to receive the information that transmitter A and B is issued, Huo Zheyin Reception is interfered and information is caused to malfunction.Such issues that in order to solve, some producers use the solution of coordinator at present, Timing transmitting is distributed by coordinator or is received, but be will lead to cost in this way and significantly promoted.

Another solution on the market be the mode of coded address is first passed through to distinguish the information of same communication frequency band, then Load needs the data information communicated, to realize label and the identification of data information.However, the communication speed of this solution It is relatively slow, it is primarily due to that communication data blocking/queuing phenomena can be caused when more machines communicate, and then lead to receiver Reception is interfered or receiver does not receive any signal.

In addition, distinguishing the information of same communication frequency band by coded address mode, over time, address label is received Note easily changes or fails, and causes to can not receive signal or equipment is out of touch.

Summary of the invention

A purpose of the present invention is that a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus are provided, it can Solve the problems, such as communication data blocking, data receiver less than.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, energy Communication speed and communication efficiency are enough improved, the real-time and accuracy that ensure communication data are facilitated.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in one embodiment of this invention, the narrow frequency means of communication of multichannel are communicated by the way that communication frequency band is divided into multiple narrow frequencies Frequency range distinguishes the information of same communication frequency band to establish multiple and different high-speed channels, i.e., in each institute by different channels The information for stating narrow frequency communication frequency band corresponds to corresponding absolute object, avoids the use of coordinator, while convenient for ensureing height While effect communication, and it can be realized each channel and do not conflict mutually, receive non-interfering effect.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in one embodiment of this invention, the narrow frequency means of communication of multichannel provide the narrow frequency communication frequency band of multiple fixations, favorably In each equipment in the same frequency range reliably connecting communication, facilitate the accuracy and address uniqueness of control.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, each narrow frequency communication frequency band of fixation is only unique to control the communication for the equipment being in same frequency range for the communication with frequency band signals Property, to improve the reliability of information transmitting.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in one embodiment of this invention, the narrow frequency means of communication of multichannel provide the narrow frequency communication frequency band of multiple fixations, simultaneously Different information is distinguished by the mode of coded address in same narrow frequency communication frequency band, further increases the accuracy and ground of communication While the uniqueness of location, improves traffic and be conducive to improve communication efficiency.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in one embodiment of this invention, the narrow frequency means of communication of multichannel provide the narrow frequency communication frequency band of multiple fixations, simultaneously Different information is distinguished by the mode of coded address in same narrow frequency communication frequency band, is conducive to packet communications and is easy to implement and criticizes Amount is precisely controlled.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in one embodiment of this invention, the narrow frequency means of communication of multichannel can be realized between different narrow frequency communication frequency bands Switching and select different narrow frequency communication frequency bands to be communicated, be conducive to the application for expanding the narrow frequency means of communication of the multichannel Range and raising communication efficiency.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, wherein In the narrow frequency means of communication of the multichannel, the transfer sequence between the narrow frequency communication frequency band of Yu Butong can be set and advantageous In realizing the control with specific direction, such as point-to-point one receipts control of a hair, point are controlled and are put forward and control backward.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, wherein In the narrow frequency means of communication of the multichannel, the narrow frequency means of communication of multichannel can provide two or more narrow frequencies simultaneously Communication frequency band is conducive to packet communications and is easy to implement batch and is precisely controlled, while being advantageously implemented the control with multidirectional The multicast control of system, such as point forwards, backwards.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in one embodiment of this invention, the transfer sequence between the narrow frequency communication frequency band of Yu Butong can be set, while primary Switching can provide two or more narrow frequency communication frequency bands simultaneously, be advantageously implemented the multiple target control with specific direction System, and the batch of the multiple target with multidirectional are precisely controlled.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in one embodiment of this invention, the narrow frequency means of communication of multichannel can be applied to field of illumination systems, so as to Communications service is provided in lighting system, realizes the self-management of the lighting system.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in one embodiment of this invention, the narrow frequency means of communication of multichannel can be realized the administration of energy conservation of lighting system, help In energy saving.

Another object of the present invention is to provide a kind of narrow frequency means of communication of multichannel and its system and lighting apparatus, In, in order to achieve the above object, the structure using expensive material or complexity is not needed in the present invention.Therefore, the present invention at Function and effectively provide a solution, do not only provide a kind of narrow frequency means of communication of simple multichannel and its system and Lighting apparatus, while also adding the practicability of the narrow frequency means of communication of the multichannel and its system and lighting apparatus and reliable Property.

In order to realize above-mentioned at least a goal of the invention or other objects and advantages, the present invention provides a kind of narrow frequencies of multichannel The means of communication, comprising steps of

One communication frequency band is divided at least two narrow frequency communication frequency bands, wherein the communication frequency per the narrow frequency communication frequency band It is different, and at least one first channel signal is sent in the wherein one narrow frequency communication frequency band；With

First channel signal is received in the narrow frequency communication frequency band of correspondence first channel signal, not need Coordinator and distinguish the different channels signal in the same communication frequency band by the different narrow frequency communication frequency bands.

In one embodiment of this invention, wherein a narrow frequency communication frequency band is switched into another narrow frequency and is communicated Frequency range, to carry out the step of interference-free communication between the different narrow frequency communication frequency bands, comprising steps of

In the first narrow frequency communication frequency band being previously set, it is loaded into and transmits first channel signal；With

After first channel signal is transmitted, the second narrow frequency communication frequency band is switched to, to be loaded into and transmit Second channel signal, wherein the communication frequency of the first narrow frequency communication frequency band is different from the logical of the described second narrow frequency communication frequency band News frequency rate.

In one embodiment of this invention, wherein a narrow frequency communication frequency band is switched into another narrow frequency and is communicated Frequency range is further comprised the steps of: with carrying out the step of interference-free communication between the different narrow frequency communication frequency bands

After the second channel signal is transmitted, the narrow frequency communication frequency band of third is switched to, to be loaded into and transmit Third channel signal, wherein the communication frequency of the narrow frequency communication frequency band of the third is different from the described first and second narrow frequency communications The communication frequency of frequency range.

In one embodiment of this invention, wherein the second narrow frequency communication frequency and the narrow frequency communication frequency of the third Frequency separation is mutually non-conterminous.

In one embodiment of this invention, wherein the signal can only be by being previously set into or switching to the institute to match State the transmitter transmitting of narrow frequency communication frequency band；And the signal can only be by being previously set into the narrow frequency communication frequency to match The receiver of section receives.

In one embodiment of this invention, wherein different first channel signals has different coded addresses.

The present invention provides in another aspect a kind of narrow frequency communication system of multichannel, comprising:

At least one first host, wherein including one first transmitting host per first host, wherein first transmitting Host is provided to have the first narrow frequency communication frequency band, for being triggered to emit and match with the described first narrow frequency communication frequency band The first channel signal；

At least one second host, wherein including one second transmitting host per second host, wherein second transmitting Host is provided to have the second narrow frequency communication frequency band, for being triggered to emit and match with the described second narrow frequency communication frequency band Second channel signal, wherein the communication frequency of the second narrow frequency communication frequency band is different from the described first narrow frequency communication frequency band Communication frequency；

At least one first receives slave, wherein being provided to have the described first narrow frequency communication per the first reception slave Frequency range, for receiving first channel signal；And

At least one second receives slave, wherein being provided to have the described second narrow frequency communication per the second reception slave Frequency range, for receiving the second channel signal.

In one embodiment of this invention, wherein the narrow frequency communication system of the multichannel further include an at least third host and An at least third receives slave, wherein including that a third emits host per the third host, wherein the third emits host It is provided to have the narrow frequency communication frequency band of third, for being triggered to emit match with the narrow frequency communication frequency band of the third the Three channel signals, wherein the communication frequency of the narrow frequency communication frequency band of the third is different from the described first and second narrow frequency communication frequencies The communication frequency of section；Slave is wherein received per the third and is provided to have the narrow frequency communication frequency band of the third, for receiving The third channel signal.

In one embodiment of this invention, wherein every first host further includes one first receiving host, wherein described First receiving host is provided to have the described first narrow frequency communication frequency band, for receiving first channel signal；Per described Second host further includes one second receiving host, wherein second receiving host is provided to have the described second narrow frequency communication Frequency range, for receiving the second channel signal；It further include a third receiving host per the third host, wherein the third Receiving host is provided to have the narrow frequency communication frequency band of the third, for receiving the third channel signal.

In one embodiment of this invention, wherein the first transmitting host of first host is controlled to switch To the described second narrow frequency communication frequency band, for emitting the second channel signal to match with the described second narrow frequency communication frequency band；Its Described in second receiving host of the second host be also used to receive the second channel signal.

In one embodiment of this invention, wherein the first transmitting host of first host is further controlled To switch to the narrow frequency communication frequency band of the third, believe for emitting the third channel to match with the narrow frequency communication frequency band of the third Number；Wherein the third receiving host of the third host is also used to receive the third channel signal.

In one embodiment of this invention, wherein the second reception slave is also used to receive first channel signal And/or the third channel signal；Wherein the third receives slave and is also used to receive first channel signal and/or described Second channel signal.

In one embodiment of this invention, wherein be suitable for being communicatively connected in a network per first host in an illumination system One main induction lamps and lanterns of system, for when the main induction lamps and lanterns sense the people or object of movement, first host it is described First transmitting host is for being triggered to emit first channel signal.

In one embodiment of this invention, wherein be suitable for being communicatively connected in a network per first host in an illumination system One main induction lamps and lanterns of system, wherein when the main induction lamps and lanterns sense the people or object of movement, first host it is described First transmitting host is for being triggered to emit first channel signal.

In one embodiment of this invention, wherein the first transmitting host of first host is also used to described First channel signal is launched after completion, is switched to the described second narrow frequency communication frequency band, to emit the second channel letter Number.

In one embodiment of this invention, wherein described in being received when first receiving host of first host When the first channel signal, first host is also used to light the main induction lamp being communicatively coupled with first host Tool.

In one embodiment of this invention, wherein described in being received when second receiving host of second host When second channel signal, second host is also used to light the main induction lamp being communicatively coupled with second host Tool.

In one embodiment of this invention, wherein be suitable for being communicatively connected in a network in the photograph per the first reception slave The one of bright system from induction lamps and lanterns, wherein when it is described first reception slave receive first channel signal when, described first Reception slave, which is also used to light, to be somebody's turn to do with what the first reception slave was communicatively coupled from induction lamps and lanterns.

The present invention additionally provides a kind of lighting apparatus on the other hand, comprising:

One light fitting body is used for luminous lighting；

One sensing device, wherein the sensing device is communicably set to the light fitting body, it is described for incuding The people or object of light fitting body peripheral motor, and in the people or object for sensing the movement, action command signal is issued, so that The light fitting body is lit in response to the action command signal to be illuminated；And

One host, wherein the host includes a transmitting host being communicatively coupled with the sensing device, wherein institute Stating transmitting host has at least two narrow frequency communication frequency bands and is set with the wherein one narrow frequency communication frequency band in response to described Action command signal, and be triggered to emit the signal to match with the frequency of the narrow frequency communication frequency band phase.

In one embodiment of this invention, the host further includes a reception being communicatively coupled with the light fitting body Host is communicated for receiving with the narrow frequency wherein the receiving host is provided to have at least one narrow frequency communication frequency band The signal that frequency range matches, so that the light fitting body is for responding the signal to match with the narrow frequency communication frequency band and being lit To be illuminated.

In one embodiment of this invention, wherein the transmitting host of the host is also used to be controlled to switch to Another narrow frequency communication frequency band to emit the signal to match with the narrow frequency communication frequency band is suitable for that there is the narrow frequency to communicate The receiving host of frequency range receives so that the response of another light fitting body and the signal that the narrow frequency communication frequency band matches and be lit with It is illuminated, wherein the communication frequency of the different narrow frequency communication frequency bands is different.

In one embodiment of this invention, wherein communicate frequency with the corresponding narrow frequency via the transmitting host transmitting The signal that section matches is further adapted for being received by the reception slave with the narrow frequency communication frequency band, so that can communicate with the reception slave Being able to respond from induction lamps and lanterns for ground connection is lit in the signal to match with the narrow frequency communication frequency band to be illuminated.

The present invention additionally provides a kind of lighting apparatus on the other hand, comprising:

One light fitting body is used for luminous lighting；With

One slave, wherein the slave is communicatively coupled with the light fitting body, wherein the slave is set to have Preset narrow frequency communication frequency band, for receive with the signal presetting narrow frequency communication frequency band and matching, wherein the lamps and lanterns Ontology is used to be lit in response to the described and signal presetting narrow frequency communication frequency band and matching to be illuminated.

In one embodiment of this invention, wherein the slave also is different from described presetting narrow frequency communication frequency band with having Narrow frequency communication frequency band, preset narrow frequency communication frequency band with described can receive and preset narrow frequency communication frequency band different from described The signal that the narrow frequency communication frequency band matches, wherein the light fitting body is for responding and the narrow frequency communication frequency band and not preset It is same as the signal that described narrow frequency communication frequency band for presetting narrow frequency communication frequency band matches, is lit to be illuminated.

By the understanding to subsequent description and attached drawing, further aim of the present invention and advantage will be fully demonstrated.

These and other objects of the invention, feature and advantage, by following detailed descriptions, drawings and claims are obtained To fully demonstrate.

Detailed description of the invention

Fig. 1 is a kind of flow diagram of the narrow frequency means of communication of multichannel of an embodiment according to the present invention.

Fig. 2 is a kind of block diagram representation of the narrow frequency communication system of multichannel of an embodiment according to the present invention.

Fig. 3 A shows the first applied field of the narrow frequency communication system of the multichannel according to the abovementioned embodiments of the present invention Scape schematic diagram.

Fig. 3 B shows the logical of the narrow frequency communication system of the multichannel under above-mentioned first application scenarios according to the present invention Interrogate schematic diagram.

Fig. 4 A shows the second applied field of the narrow frequency communication system of the multichannel according to the abovementioned embodiments of the present invention Scape schematic diagram.

Fig. 4 B shows the logical of the narrow frequency communication system of the multichannel under above-mentioned second application scenarios according to the present invention Interrogate schematic diagram.

Fig. 5 A shows the third applied field of the narrow frequency communication system of the multichannel according to the abovementioned embodiments of the present invention Scape schematic diagram.

Fig. 5 B shows the logical of the narrow frequency communication system of the multichannel under above-mentioned third application scenarios according to the present invention Interrogate schematic diagram.

Fig. 6 A shows the 4th applied field of the narrow frequency communication system of the multichannel according to the abovementioned embodiments of the present invention The first situation schematic diagram of scape.

Fig. 6 B shows the narrow frequency of the multichannel of the first situation under above-mentioned 4th application scenarios according to the present invention The communication schematic diagram of communication system.

Fig. 6 C shows the 4th applied field of the narrow frequency communication system of the multichannel according to the abovementioned embodiments of the present invention The second situation schematic diagram of scape.

Fig. 6 D shows the narrow frequency of the multichannel of the second situation under above-mentioned 4th application scenarios according to the present invention The communication schematic diagram of communication system.

Fig. 6 E shows the 4th applied field of the narrow frequency communication system of the multichannel according to the abovementioned embodiments of the present invention The third situation schematic diagram of scape.

Fig. 6 F shows the narrow frequency of the multichannel of the third situation under above-mentioned 4th application scenarios according to the present invention The communication schematic diagram of communication system.

Fig. 7 A shows an a kind of example of lighting system of an embodiment according to the present invention.

Fig. 7 B shows a kind of another example of lighting system of an embodiment according to the present invention.

Specific embodiment

It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.It is excellent in being described below Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description Basic principle of the invention can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back Other technologies scheme from the spirit and scope of the present invention.

In the present invention, term " one " is interpreted as " one or more " in claim and specification, i.e., in a reality Example is applied, the quantity of an element can be one, and in a further embodiment, the quantity of the element can be multiple.Unless Clearly illustrate in exposure of the invention the element quantity only one, otherwise term " one " can not be interpreted as unique or single One, term " one " should not be understood as the limitation to quantity.

In the description of the present invention, it is to be understood that, belong to " first ", " second " etc. to be used for description purposes only, without It can be interpreted as indicating or implying relative importance.In description of the invention, it should be noted that unless otherwise specific regulation And restriction, belong to " connected ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, may be a detachable connection or Person is integrally connected；It can be mechanical connection, be also possible to be electrically connected；It can be and be directly connected to, be also possible to by between medium It ties in succession.For the ordinary skill in the art, it can understand above-mentioned term in the present invention as the case may be Concrete meaning.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It can be combined in any suitable manner in one or more embodiment or examples.In addition, without conflicting with each other, the skill of this field Art personnel can tie the feature of different embodiments or examples described in this specification and different embodiments or examples It closes and combines.

Exemplary process

As shown in Figure 1, a kind of narrow frequency means of communication of multichannel of an embodiment according to the present invention are elucidated with, for solving The blocking of data existing for the current means of communication or data receiver less than the problem of, that is, solve the current means of communication exist it is same The problem of frequency communication interference.Specifically, as shown in Figure 1, the narrow frequency means of communication of the multichannel, comprising steps of

One communication frequency band is divided at least two narrow frequency communication frequency bands, wherein the communication frequency per the narrow frequency communication frequency band It is different, and at least one first channel signal is sent in the wherein one narrow frequency communication frequency band；With

First channel signal is received in the narrow frequency communication frequency band of correspondence first channel signal, not need Coordinator and distinguish the different channels signal in the same communication frequency band by the different narrow frequency communication frequency bands.

Further, the narrow frequency means of communication of the multichannel comprising steps of

S110: being divided at least two narrow frequency communication frequency bands for a communication frequency band, wherein the communication per the narrow frequency communication frequency band Frequency is different, so that signal carries out interference-free communication in the same narrow frequency communication frequency band；With

S120: by frequency hopping, switching to another narrow frequency communication frequency band for a narrow frequency communication frequency band, so that Signal carries out interference-free communication between the different narrow frequency communication frequency bands.

Illustratively, it is described by taking the 868MHZ frequency range (i.e. bandwidth is 863-879MHZ) in Europe as an example, in permission Communication frequency band is divided into N number of very narrow frequency band (i.e. narrow frequency communication frequency band) in frequency range (i.e. frequency bandwidth), such as: the frequency of permission Rate bandwidth is 6M, is divided into 32 narrow frequency communication frequency bands, then the transmitting of each narrow frequency communication frequency band (i.e. channel) and connects The permission frequency bandwidth of receipts is 6/32=0.1875MHZ.Since the communication frequency of each narrow frequency communication frequency band is all different (the communication frequency range of the i.e. different narrow frequency communication frequency bands there is no any intersection or overlapping), therefore described in different It will not be disturbed between each other when sending signal simultaneously in narrow frequency communication frequency band.The narrow frequency communication frequency band each in this way is busy The communication frequency section first set, is equivalent to and establishes multiple and different high-speed channels, there will be no any communication conflict or has The problem of co-channel interference, exists.In addition, the mechanics of communication of the narrow frequency communication frequency band can also reduce the interference to other equipment, Reach mutually non-interfering purpose.It is understood that the communication frequency range of the communication frequency band also may be defined as it is all Such as U.S. 915MHZ (i.e. bandwidth is 896-960MHZ) low-data-rate wireless personal area network LR-WPSN, can also be defined as 2.4G Frequency range or 5G frequency range etc..

It is to be understood that only when signal identical with the communication frequency of the narrow frequency communication frequency band can be in the narrow frequency Communication frequency band passes through, and the same communication frequency signal that the narrow frequency communication frequency band passes through can only be communicated with the narrow frequency The receiver that frequency range matches receives, that is to say, that and each narrow frequency communication frequency band can represent the signal of different communication frequencies, And the transmitting of the signal of different communication frequencies has uniqueness, in other words, the equipment on same narrow frequency communication frequency band It can mutually communicate, to prevent the interference of the equipment of other frequency ranges.Therefore, the narrow frequency communication side of multichannel through the invention Method can be realized the one-to-one transmission and transmitting of echo signal, improve the uniqueness and accuracy of information communication.

It is worth noting that, although the communication frequency of the different narrow frequency communication frequency bands is different, so that different is described It cannot achieve signal communication between narrow frequency communication frequency band, but the present invention passes through channel switching techniques, by the communication frequency of transmitter Section switches to required another narrow frequency communication frequency band from a certain narrow frequency communication frequency band set, so that the transmitting The signal that machine transmitting matches with another narrow frequency communication frequency band, and receiver can only be received and be communicated with the narrow frequency of setting themselves The signal that frequency range matches, and then realize and carry out interference-free communication between the different narrow frequency communication frequency bands.In other words, When needing to be communicated between different communication frequency bands, then the set narrow frequency communication frequency band can be first switched to, The signal transmitted needed for reloading carries out interference-free communication to realize between the different narrow frequency communication frequency bands.

Illustratively, first it is arranged to narrow frequency communication frequency band A, to be loaded into the signal for needing to send, after waiting is sent completely, then The narrow frequency communication frequency band B of setting is switched to, to be loaded into the signal for needing to send, then waits and being sent completely.And so on, so that it may It realizes and sends signal in multiple narrow frequency communication frequency bands jumped, and avoid co-channel interference.

It is noted that in the above embodiment of the invention, as shown in Figure 1, the narrow frequency means of communication of the multichannel The step S120, comprising steps of

S121: it in the first narrow frequency communication frequency band being previously set, is loaded into and transmits the first channel signal；With

S122: after first channel signal is transmitted, switching to the second narrow frequency communication frequency band, to be loaded into simultaneously Second channel signal is transmitted, wherein the communication frequency of the first narrow frequency communication frequency band is different from the described second narrow frequency communication frequency band Communication frequency.

It is worth noting that, the signal can only be by being previously set into or switching to the narrow frequency communication frequency band to match Transmitter transmitting；And the signal can only be connect by the receiver that the narrow frequency communication frequency band to match is previously set into It receives.That is, the first (or second) signal can only be by being previously set into or switching to the described the first (or second) narrow frequency The transmitter of communication frequency band emits；And the first (or second) signal can only be by being previously set into described the first (or second) The receiver of narrow frequency communication frequency band receives.In other words, when the transmitter be previously set into the described first narrow frequency communication frequency band or When person is by controlling the transmitter to switch to the described first narrow frequency communication frequency band, the transmitter can be loaded into and emit First channel signal；When the described first narrow frequency communication frequency band is previously set into the receiver, the receiver ability First channel signal is received, enough to guarantee the noiseless transmission of signal.That is, in this example of the invention, Channel switching will not occur for the receiver.Certainly, in other examples of the invention, when the receiver is previously set not When being the described first narrow frequency communication frequency band, the described first narrow frequency communication frequency can also be switched to by controlling the receiver Section, and then receive first channel signal.

Further, in an example of the invention, as shown in Figure 1, the step S120 can with comprising steps of

S123: after the second channel signal is transmitted, switching to the narrow frequency communication frequency band of third, to be loaded into simultaneously The third channel signal is transmitted, wherein the communication frequency of the narrow frequency communication frequency band of the third is different from described first and second The communication frequency of narrow frequency communication frequency band.

That is, the quantity of the narrow frequency communication frequency band is at least two, and not specific in the step S110 Quantity is limited, wherein the communication frequency per the narrow frequency communication frequency band is different.Preferably, the different narrow frequency communication frequencies The communication frequency of section is mutually non-conterminous, interferes with each other between the channel signal to further decrease the different narrow frequency communication frequency bands Probability.

It is understood that in this example of the invention, after the second channel signal is sent completely, not The described first narrow frequency communication frequency band can be automatically reverted to from the described second narrow frequency communication frequency band, but it is directly narrow from described second Frequency communication frequency band is switched to the narrow frequency communication frequency band of the third, and waits the third channel signal to be sent.And so on, directly To all narrow frequency communication frequency bands for having jumped setting and after having sent signal, the described first narrow frequency communication can be just jumped back to again Frequency range.In other words, after multiple narrow frequency communication frequency bands have sent signal, the described first narrow frequency communication frequency can just be jumped back to Section (only needing a secondary channel switch back).

Certainly, in another example of the invention, the step S120 can be comprising steps of believe in the second channel After number being sent completely, the described first narrow frequency communication frequency band first is switched to from the described second narrow frequency communication frequency band, then from described the One narrow frequency communication frequency band switches to the set narrow frequency communication frequency band of third, and waits the third channel signal to be sent, wherein The communication frequency of the communication frequency and the described first and second narrow frequency communication frequency bands of the narrow frequency communication frequency band of third is all different.

It is understood that after the second channel signal is sent completely, first will in this example of the invention The second narrow frequency communication frequency band switches back into the described first narrow frequency communication frequency band, then switches to from the described first narrow frequency communication frequency band The narrow frequency communication frequency band of third, and wait the third channel signal to be sent.And so on, second or third have been sent every time It after channel signal, requires first to switch the described first narrow frequency communication frequency band (needing multiple channel switch back), until institute The narrow frequency communication frequency band having has sent signal.

Particularly, in some embodiments of the invention, the channel signal under the same narrow frequency communication frequency band Quantity is unrestricted, and specifically, first channel signal sent in the step S121 has different coded addresses, Therefore only when the receiver to match with the narrow frequency communication frequency band can receive first letter with different coding address Road signal, and corresponding first channel signal is loaded when corresponding coded address matches with the receiver, therefore The transmitting target of the channel signal under the same narrow frequency communication frequency band with different coding address is that uniquely, thus have There is the transmitting between the channel signal of different coding address not interfere with each other, so that the reliability of information transmission is improved, It improves the traffic of each narrow frequency communication frequency band simultaneously and is conducive to improve communication efficiency, be conducive to packet communications and be easy to implement Batch is precisely controlled.

It will be appreciated by those skilled in the art that channel signal is with coding guidance information, key, address information, control The encoded information of instruction and check information is believed wherein shoulding be the coding to the understanding of the coded address of the channel signal The encoded information of the control instruction and the check information, i.e., the described volume can be identified and loaded in breath by corresponding receiver Code address is guidance information in the encoded information, key, combination more than one or two of address information, the present invention With no restriction to this.That is, the difference channel signal under the same narrow frequency communication frequency band is with different volumes The channel signal of code address without limiting the control instruction information of the channel signal, and does not limit the different narrow frequency communications The coded address of the channel signal of frequency range and control instruction, i.e., the coded address of the channel signal of the different narrow frequency communication frequency bands And/or control instruction can be identical, and it can also be different, the invention is not limited in this regard.

Exemplary system

Referring to figs. 2 to shown in Fig. 5, a kind of narrow frequency communication system of multichannel of an embodiment according to the present invention is elucidated with, It can be realized noiseless communication, to solve co-channel interference existing in the prior art or communicate the problems such as conflicting.Specifically, such as Shown in Fig. 2, the narrow frequency communication system 1 of multichannel includes at least one first host 11, at least one second host 12, at least 1 the One receives slave 21 and at least one second reception slave 22.It include one first transmitting host 111 per first host 11, Described in the first transmitting host 111 be provided to have the first narrow frequency communication frequency band, for being triggered to emit with described first The first channel signal that narrow frequency communication frequency band matches.Emit host 121 including one second per second host 12, wherein institute It states the second transmitting host 121 and is provided to have the second narrow frequency communication frequency band, for being triggered to emit and the described second narrow frequency The second channel signal that communication frequency band matches, wherein the communication frequency of the second narrow frequency communication frequency band is different from described first The communication frequency of narrow frequency communication frequency band, that is to say, that frequency band locating for first channel signal is different from second letter Frequency band locating for road signal.It is provided to have the described first narrow frequency communication frequency band per the first reception slave 21, is used for Receive first channel signal to match with the described first narrow frequency communication frequency band.It is set per the second reception slave 22 With the second channel with the described second narrow frequency communication frequency band, for receiving and the described second narrow frequency communication frequency band matches Signal.

In other words, the first reception slave 21 because be configured to described first narrow frequency communication frequency band due to can only receive and come from First channel signal of first host 11；Similarly, described second slave 22 is received because being configured to described second Narrow frequency communication frequency band and the second channel signal from second host 12 can only be received.That is, described first The second channel signal from second host 12 will not be received by receiving slave 21, similarly described second receive slave 22 will not receive first channel signal from first host 11, to avoid leading between host and slave The problem of news conflict or co-channel interference, carries out noiseless communication at high speed in same narrow frequency communication frequency band to realize.

It is worth noting that, a certain communication frequency band is divided at least two narrow frequency communication frequency bands, (such as described first narrow frequency is communicated Frequency range and the second narrow frequency communication frequency band), and the communication frequency per the narrow frequency communication frequency band is different, so that described The communication frequency of first narrow frequency communication frequency band is different from the communication frequency of the described second narrow frequency communication frequency band, i.e., the described first narrow frequency The communication frequency range of communication frequency band is neither Chong Die with the communication frequency range of the described second narrow frequency communication frequency band and does not intersect, To avoid first channel signal and the second channel signal to interfere with each other or influence in transmission to the maximum extent. For example, the communication frequency of the first narrow frequency communication frequency band can be more than or equal to 863MHZ and be less than 863.1875MHZ；Described The communication frequency of two narrow frequency communication frequency bands can be more than or equal to 863.1875MHZ and be less than 863.375MHZ.

It is noted that in this embodiment in accordance with the invention, as shown in Fig. 2, the narrow frequency communication system 1 of the multichannel It can also include that an at least third host 13 and an at least third receive slave 23.It is sent out per the third host 13 including a third Host 131 is penetrated, wherein third transmitting host 131 is provided to have the narrow frequency communication frequency band of third, for being triggered to send out The third channel signal to match with the narrow frequency communication frequency band of the third is penetrated, wherein the communication frequency of the narrow frequency communication frequency band of the third Rate is different from the communication frequency of the described first and second narrow frequency communication frequency bands.Slave 23 is received per the third to be set to have There is the narrow frequency communication frequency band of the third, believes for receiving the third channel to match with the narrow frequency communication frequency band of the third Number, to carry out interference-free communication between host and slave with same narrow frequency communication frequency band, being effectively prevented from has not Communication conflict is generated between the host and slave of same narrow frequency communication frequency band or communication is interfered.

It is worth noting that, in the above embodiment of the invention, although passing through the described first narrow frequency communication frequency band, described It is of the invention to illustrate for second narrow frequency communication frequency band and the narrow frequency communication frequency band of the third these three narrow frequency communication frequency bands The advantage and characteristic of the narrow frequency communication system 1 of multichannel, but the narrow frequency communication system 1 of the multichannel is not limited to these three Narrow frequency communication frequency band, in other examples of the invention, the narrow frequency communication system 1 of multichannel can also have the four, the 5th, with And 6th etc. multiple narrow frequency communication frequency band, that is to say, that the narrow frequency communication system 1 of multichannel may include narrow frequency communication frequency The quantity of section can be with more than three.In addition, the first narrow frequency communication frequency band, the second narrow frequency communication frequency band and described The communication frequency of three narrow frequency communication frequency bands can be continuously, be also possible to intermittent, and the present invention is not further limited this.

Further, as shown in Fig. 2, in the narrow frequency communication system 1 of the multichannel of this embodiment of the invention, institute Stating the first host 11 can also include one first receiving host 112, wherein first receiving host 112 is provided to have institute The first narrow frequency communication frequency band is stated, for receiving and the first channel signal of the described first narrow frequency communication frequency band；Second host 12 can also include one second receiving host 122, wherein second receiving host 122 is provided to have the described second narrow frequency Communication frequency band, for receiving and the second channel signal of the described second narrow frequency communication frequency band；The third host 13 can also wrap A third receiving host 132 is included, wherein the third receiving host 132 is provided to have the narrow frequency communication frequency band of the third, For receiving and the third channel signal of the narrow frequency communication frequency band of the third.In this way, working as the described of a certain first host 11 First transmitting host 111 (second host 12 it is described second transmitting host 121 or the third host 13 it is described Third emits host 131) it is triggered to launch first channel signal (or the second channel signal or the third Channel signal) when, (or described the of second host 12 of first receiving host 112 of another first host 11 The third receiving host 132 of two receiving hosts 122 or the third host 13) it can also receive first channel Signal (or the second channel signal or described third channel signal), in the host of narrow frequency communication channel having the same Between carry out noiseless communication.

It is worth noting that, the narrow frequency communication system 1 of the multichannel of the invention can be applied to such as lighting area, Safety-security area etc. technical field, to guarantee the self-management of lighting system or warning system and energy saving.Such as to illuminate system For system, first, second, and third host 11,12,13 of the narrow frequency communication system 1 of multichannel is suitable for by communicably It is connected to the main induction lamps and lanterns of the lighting system, and described the first, second and of the narrow frequency communication system 1 of the multichannel Three reception slaves 21,22,23 are suitable for being communicatively connected in a network in the lighting system from induction lamps and lanterns.The lighting system The main induction lamps and lanterns can actively incude moving object or the people of surrounding, there are the object or person of movement around sensing When, the main induction lamps and lanterns automatically regulate and control, and are such as lit and/or modulated light controls, and trigger described first, second, and third The transmitting host of host 11,12,13 is to emit corresponding signal.Although the described of the lighting system cannot lead from induction lamps and lanterns Innervation answers the object or person of peripheral motor, but when the first, second, and third reception slave 21,22,23 receives accordingly When signal, the described of the lighting system will be responsive to the reception slave received signal, automatic place from induction lamps and lanterns It is bright, to realize the automatic management function of lighting system.

It is understood that the main induction lamps and lanterns of the lighting system can be, but not limited to be implemented as configured with micro- The lamps and lanterns of wave detector, to incude the object or person of peripheral motor by the microwave detector；And the lighting system It is described to be then implemented as being not configured with the lamps and lanterns of microwave detector from induction lamps and lanterns, to reduce the cost of entire lighting system. Certainly, in other examples of the invention, the main induction lamps and lanterns of the lighting system also be may be implemented as configured with all Such as lamps and lanterns of infrared detector, sound-detection gear, visual detector sensing device.

Illustratively, as shown in figs.3 a and 3b, the narrow frequency communication of the multichannel according to the abovementioned embodiments of the present invention system First application scenarios of system are elucidated with, and it illustrates the applications that the narrow frequency communication system of the multichannel is in broadcast mode, also It is to say, the narrow frequency communication system of multichannel needs to carry out broadcast operation, only carries out in same narrow frequency communication frequency band noiseless Ground communication.

Specifically, as shown in Figure 3A, by taking the application scenarios of three layers of passageway lighting as an example, every layer is walked first application scenarios Entrance (or doorway) position of corridor is provided with the main induction lamps and lanterns 31, for incuding the people passed in and out from entrance or movement Object, while the other positions (i.e. non-entrance) in every layer of corridor be then provided with it is described from induction lamps and lanterns 32.First Layer is provided with first host 11 being communicatively coupled with the main induction lamps and lanterns 31 (such as in first layer corridor in corridor First host 11 is set at the main induction lamps and lanterns 31)；And it is provided in first layer corridor with described from sense light (institute is arranged at induction lamps and lanterns 32 as described in first layer corridor in the first reception slave 21 that tool 32 is communicatively coupled State the first reception slave 21).Second host 12 is respectively provided at all main induction lamps and lanterns 31 in second layer corridor； And described second is respectively provided at induction lamps and lanterns 32 described in all in second layer corridor and receives slave 22.It is walked in third layer The third host 13 is respectively provided at all main induction lamps and lanterns 31 in corridor；And described in all in third layer corridor The third, which is respectively provided with, from induction lamps and lanterns 32 receives slave 23.

In this way, as shown in Figure 3B, when a certain main induction lamps and lanterns 31 in first layer corridor sense people or the object of movement When body, the main induction lamps and lanterns 31 are lit, and first host 11 at the main induction lamps and lanterns 31 is described First transmitting host 111 is triggered to emit first channel signal.Then, described first in first layer corridor receives Slave 21 and the first receiving host 112 receive first channel signal due to the described first narrow frequency communication frequency band, with Make in first layer corridor it is all from induction lamps and lanterns 32 and other main induction lamps and lanterns 31 because in response to first channel signal And it is lit.At the same time, described second and third in second and third layer corridor receive slave 22,23 and described the Two and third receiving host 112,113 can not receive first letter due to described second and third narrow frequency communication frequency band Road signal so that in second and third layer corridor it is all from induction lamps and lanterns 32 and other main induction lamps and lanterns 31 will not be by point Bright, to avoid the lamps and lanterns in second and third layer corridor by the communication interference in first layer corridor, this is helped to realize The purpose of the automatic management and energy conservation of lighting system.In other words, the host in every layer of corridor and slave are in same narrow frequency Signal is transmitted in communication frequency band, and host in the corridor of different layers and slave pass in different narrow frequency communication frequency bands respectively Defeated signal, to avoid communication interference is generated between the host and slave in the corridor of different layers, thus real in same layer corridor The Broadcasting Control of existing lighting system.It is understood that when the main induction lamps and lanterns 31 sense the people or object of movement, institute First channel signal can be emitted again after the main induction lamps and lanterns 31 are lit by stating the first reflection host 111, or The first reflection host 111 can also just emit first channel signal before the main induction lamps and lanterns 31 are lit, The present invention does not repeat them here this.

It is noted that in the narrow frequency communication system 1 of the multichannel of this embodiment according to the invention, it is described The first transmitting host 111 of first host 11 can also be controlled to switch to the described second narrow frequency communication frequency band, be used for The second channel signal that transmitting matches with the described second narrow frequency communication frequency band, so that described the second of second host 12 connects The second channel signal from first host 11 can be received by receiving host 122, to realize in first host 11 Noiseless communication is carried out between second host 12, that is, is realized and carried out between the host with different narrow frequency communication frequency band Noiseless communication.In other words, when a certain main induction lamps and lanterns 31 of the lighting system due to sensing the people or object of movement by When lighting, the first transmitting host 111 for first host 11 connecting with the main induction lamps and lanterns 31 first emits first Channel signal, to be received by the first reception slave 21, so that the slave sense light being connected with the first reception slave 21 Tool 32 is lit；And after having emitted first channel signal, the first transmitting host 111 switches to described second again Narrow frequency communication frequency band emits the second channel signal, to be received by second receiving host 122, so that with described second The main induction lamps and lanterns 31 that receiving host 122 is connected are lit.

Similarly, the second transmitting host 121 of second host 12 can be controlled to switch to the third Narrow frequency communication frequency band, for emitting the third channel signal to match with the narrow frequency communication frequency band of the third, so that the third The third receiving host 132 of host 13 can receive the third channel signal from second host 12；Or The third transmitting host 131 of the third host 13 can be controlled to switch to the described second narrow frequency communication frequency band, use In the second channel signal that transmitting matches with the described second narrow frequency communication frequency band, so that described the second of second host 12 Receiving host 122 can receive the second channel signal from the third host 13, to realize with different narrow Noiseless communication is carried out between the host of frequency communication frequency band.

Illustratively, as shown in Figure 4 A and 4 B shown in FIG., the narrow frequency communication of the multichannel according to the abovementioned embodiments of the present invention Second application scenarios of system are elucidated with, and it illustrates the narrow frequency communication systems of the multichannel to be in answering for channel mode With, that is to say, that the narrow frequency communication system of multichannel needs to carry out channel switchover operation, in different narrow frequency communication frequency bands Interior progress interference-free communication.

Specifically, as shown in Figure 4 A, second application scenarios are by taking the application scenarios that staircase illuminates as an example, every floor ladder Between be provided with the main induction lamps and lanterns 31, for incuding the object of the people or movement that walk about in the staircase.In first layer The first host 11 that setting is communicatively coupled with the main induction lamps and lanterns 31 in staircase；In the second layer staircase setting with The second host 12 that the main induction lamps and lanterns 31 are communicatively coupled；Setting and the main induction lamps and lanterns in third layer staircase The 31 third hosts 13 being communicatively coupled.

In this way, as shown in Figure 4 B, when people goes to first layer staircase, so that being located at described in the first layer staircase When main induction lamps and lanterns 31 sense the people to walk about to be lit, the first transmitting host 111 of first host 11 is controlled System is to switch to the described second narrow frequency communication frequency band, to emit the second channel signal；Then it is located at the second layer stair Second receiving host 122 of interior second host 12 will receive the second channel signal, so as to be located at institute The main induction lamps and lanterns 31 stated in second layer staircase are lit, to realize when people is when first layer staircase is walked about, position It is lighted in advance in the lamps and lanterns in second layer staircase, to provide illumination in advance for people.And so on, when people goes to the second layer Staircase, so that the main induction lamps and lanterns 31 being located in the second layer staircase are when sensing the people to walk about, described the The second transmitting host 121 of two hosts 12 is controlled to switch to the narrow frequency communication frequency band of the third, to emit described the Three channel signals；Then the third receiving host 132 for being located at the third host 13 in the third layer staircase will The third channel signal is received, so that the main induction lamps and lanterns 31 being located in the third layer staircase are by predicted point It is bright, in order to provide intelligentized lighting service.

It is worth noting that, when the main induction lamps and lanterns 31 being located in second layer staircase sense the people to walk about, Not can determine that people be upstairs or downstairs, therefore in this example of the invention, described the second of second host 12 Transmitting host 121 can also be controlled to switch to the described first narrow frequency communication frequency band to be made with emitting first channel signal First receiving host 112 for obtaining first host 11 being located in the first layer staircase receives first letter Road signal, to light the lamps and lanterns in the first layer staircase in advance.In other words, described the second of second host 12 Transmitting host 121 can switch to the narrow frequency communication frequency band of the third first to emit the third channel signal, then switch to institute The first narrow frequency communication frequency band is stated to emit first channel signal, enable second host 12 respectively with the third Host 13 and first host 11 carry out interference-free communication.

It is understood that the main induction lamps and lanterns 31 of the lighting system of the invention can in low-luminance mode and It works under high brightness mode, when the main induction lamps and lanterns 31 work under low-luminance mode, the main induction lamps and lanterns 31 are sent out Light luminance out is lower, to consume less electric energy；And when the main induction lamps and lanterns 32 work under high brightness mode, institute State that the light luminance that main induction lamps and lanterns 31 are issued is higher, to consume more electric energy.

Certainly, in other examples of the invention, the low-luminance mode of the main induction lamps and lanterns 31 refers to: another when receiving When one channel signal, low bright state can be entered to realize the effect lighted in advance.The high brightness mode of the main induction lamps and lanterns 31 Refer to: when receiving another channel signal, highlighted state can be entered to improve illuminating effect.

Preferably, when the main induction lamps and lanterns 31 sense the people or object of movement, with the main induction lamps and lanterns Whether the receiving host of 31 connections receives channel signal, and the main induction lamps and lanterns 31 will be all lit under high brightness mode Work, provides preferable lighting condition；And when the main induction lamps and lanterns 31 are not sensed by the people or object of movement, if with institute State main induction lamps and lanterns 31 connection receiving host receive corresponding channel signal, then the main induction lamps and lanterns 31 will be lit with It works under low-luminance mode, to economize on resources；If the receiving host connecting with the main induction lamps and lanterns 31 does not receive Corresponding channel signal, then the main induction lamps and lanterns 31 will not be lit.

It is highly preferred that the main induction lamps and lanterns 31 of the lighting system and it is described from induction lamps and lanterns 32 can be by point Automatic distinguishing after bright a period of time (such as 1 minute), so as to energy saving.Even in some examples of the invention, institute The main induction lamps and lanterns 31 for stating lighting system are lit a period of time (such as 30 seconds) that works under high brightness mode with elder generation, Being further continued for working under low-luminance mode for a period of time (such as 30 seconds) can just extinguish later, to provide preferably illumination item Part and a reasonable equalization point is found between economizing on resources.

According to the abovementioned embodiments of the present invention, first host 11 of the narrow frequency communication system 1 of the multichannel is described First transmitting host 111 emits the first channel signal in addition to being first triggered, then switch to the described second narrow frequency communication frequency band with Emit except second channel signal, additionally it is possible to after having emitted the second channel signal, it is logical to switch to the narrow frequency of the third News frequency section is to emit third channel signal, so that second receiving host 122 of second host 12 and the third master The third receiving host 132 of machine 13 be able to receive the second channel signal from first host 11 and The third channel signal, to carry out nothing between first host 11 and second host 12 and the third host 13 Interference communications.Similarly, the second transmitting host 121 of second host 12 is also allowed hand over to the first narrow frequency communication frequency Section is to emit first channel signal, and switches to the narrow frequency communication frequency band of third to emit the third channel signal；Institute The third transmitting host 131 for stating third host 13 is equally allowed hand over to the first narrow frequency communication frequency band to emit described first Channel signal, and the described second narrow frequency communication frequency band is switched to emit second channel signal, to realize multiple with not With the noiseless communication between the host of narrow frequency communication frequency band.

It is worth noting that, described first receives slave 21 because narrow with described first in this example of the invention Frequency communication frequency band and first channel signal can be received, but with it is described first reception slave 21 connect from incude lamps and lanterns 32 will not respond first channel signal, i.e., described to receive institute because of the first reception slave 21 from induction lamps and lanterns 32 It states the first channel signal and is lit.In other words, with it is described first reception slave 21 connect from incude 32 meetings of lamps and lanterns because of sound First channel signal described in Ying Yu and be lit, can't be lit due in response to first channel signal, to prevent described It unexpectedly or is unintentionally lighted, is facilitated energy saving from induction lamps and lanterns 32.Similarly, described second and third receive slave Although 22,23 described second and third channel signal can be received respectively, slave 22,23 is received with described second and third and is connected Connect from induction lamps and lanterns 32 can't respond described second and third channel signal and be lit.

Certainly, it in other examples of the invention, is connect with the first, second, and third reception slave 21,22,23 From induction lamps and lanterns 32 other than it can respond first, second, and third channel signal respectively and be lit, it can also ring respectively Answer first, second, and third channel signal and be lit, with realize with different narrow frequency communication frequency band host and from Noiseless communication is carried out between machine.

Illustratively, as fig. 5 a and fig. 5b, the narrow frequency communication of the multichannel according to the abovementioned embodiments of the present invention The third application scenarios of system are elucidated with, it illustrates the application that the narrow frequency communication system of the multichannel is in mixed mode, That is the narrow frequency communication system of multichannel both needed broadcast operation to be also required to channel switchover operation, identical and not Interference-free communication is carried out in same narrow frequency communication frequency band.

Specifically, as shown in Figure 5A, the third application scenarios are by taking the application scenarios that underground parking illuminates as an example, wherein The underground parking is divided into the area A, the area B and the area C, and the area A, the area B and the area C are distributed in T font.The area A, the area B And the area C is provided with the main induction lamps and lanterns 31 and described from induction lamps and lanterns 32, and by arrangement shown in Fig. 5 A.In the area A, with The host that the main induction lamps and lanterns 31 are communicatively coupled is first host 11, and can be led to described from induction lamps and lanterns 32 The slave of letter ground connection is the first reception slave 21；In the area B, the master that is communicatively coupled with the main induction lamps and lanterns 31 Machine is second host 12, and is the second reception slave with the slave being communicatively coupled from induction lamps and lanterns 32 22；In the area C, the host being communicatively coupled with the main induction lamps and lanterns 31 is the third host 13, and with it is described from The slave that induction lamps and lanterns 32 are communicatively coupled is that the third receives slave 23.

In this way, as shown in Figure 5 B, when the main induction lamps and lanterns 31 for being located at the area A sense that vehicle or people move in the area A When being lit, the first transmitting host 111 for first host 11 being connect with the main induction lamps and lanterns 31 in the area A It will be triggered to emit the first channel signal, so that first receiving host 112 of other first hosts 11 and institute First channel signal can be received by stating the first reception slave 21, to light its connecting with first host 111 His main induction lamps and lanterns 31 and connect with the first reception slave 21 from induction lamps and lanterns 32, the i.e. main sense in the area A It answers lamps and lanterns 31 and is lit from induction lamps and lanterns 32.Then, after having emitted first channel signal, first host 11 the first transmitting host 111 is controlled to switch to the second narrow frequency communication frequency band, emits the second channel signal, makes Second receiving host 122 for obtaining second host 12 receives the second channel signal, to light and described second The main induction lamps and lanterns 31 that host 12 connects, that is, the main induction lamps and lanterns 31 being located in the area B are lit.Finally, having emitted After stating second channel signal, the first transmitting host 111 of first host 11 is controlled to switch to the narrow frequency of third Communication frequency band emits the third channel signal, so that the third receiving host 132 of the third host 13 receives institute Third channel signal is stated, to light the main induction lamps and lanterns 31 connecting with the third host 13, that is, the main sense being located in the area C Lamps and lanterns 31 are answered to be lit.It is worth noting that, although described second receives slave 22 and the third reception difference energy of slave 23 Enough receive the second channel signal and the third channel signal, but be located in the area B from induction lamps and lanterns 32 not The second channel signal can be responded and be lit, and will not respond in the area C from induction lamps and lanterns 32 is described Third channel signal and be lit, to achieve the purpose that economize on resources.

Similarly, when the main induction lamps and lanterns 31 for being located at the area B sense the vehicle or the people that are moved to the area B to be lit When, the second transmitting host 121 for second host 12 connecting with the main induction lamps and lanterns 31 in the area B will be triggered To emit second channel signal, so that second receiving host 122 and described second of other second hosts 12 connects The second channel signal can be received by receiving slave 22, to light other main inductions connecting with second host 121 Lamps and lanterns 31 and the main induction lamps and lanterns 31 from induction lamps and lanterns 32, i.e., in the area B connect with the second reception slave 22 It is lit with from induction lamps and lanterns 32.Then, after having emitted the second channel signal, second host 12 it is described Second transmitting host 121 is controlled to switch to the narrow frequency communication frequency band of third, emits the third channel signal, so that described the The third receiving host 132 of three hosts 13 receives the third channel signal, is connected with lighting with the third host 13 The main induction lamps and lanterns 31 connect, that is, the main induction lamps and lanterns 31 being located in the area C are lit.Finally, having emitted the third letter After road signal, the second transmitting host 121 of second host 12 is controlled to switch to the first narrow frequency communication frequency band, Emit first channel signal, so that first receiving host 112 of first host 11 receives first letter Road signal, to light the main induction lamps and lanterns 31 connecting with first host 11, that is, the main induction lamps and lanterns 31 being located in the area A It is lit.

It is worth noting that, when the main induction lamps and lanterns 31 being located in the area A sense the vehicle of the people or movement that walk about When, it not can determine that whether people or vehicle are moved to the area B or the area C, therefore in this example of the invention, first host 11 the first transmitting host 111 can be controlled to switch to the described second narrow frequency communication frequency band, to emit described second Channel signal, so that second receiving host 122 for second host 12 being located in the area B receives described second Channel signal, to light the main induction lamps and lanterns 31 in the area B in advance；But described second be located in the area B Although the second channel signal can be received by receiving slave 22, but not from sense light described in lighting in the area B Tool 32 is lighted in advance or is invalidly lighted and waste of energy from induction lamps and lanterns 32 to prevent described.Similarly, first host 11 the first transmitting host 111 can also be controlled to switch to the narrow frequency communication frequency band of the third, to emit described the Three channel signals, so that the third receiving host 132 for the third host 13 being located in the area C receives described the Three channel signals, to light the main induction lamps and lanterns 31 in the area C in advance；But described the be located in the area C Although three reception slaves 23 can receive the third channel signal, but not from induction described in lighting in the area C Lamps and lanterns 32 are lighted in advance or are invalidly lighted and waste of energy from induction lamps and lanterns 32 to prevent described.

Illustratively, as shown in Fig. 6 A to Fig. 6 F, the narrow frequency communication of the multichannel according to the abovementioned embodiments of the present invention 4th application scenarios of system are elucidated with.As shown in Figure 6 A and 6 B, the narrow frequency communication system of the multichannel is shown in the 4th The first situation of application scenarios, wherein the 4th application scenarios are by taking the application scenarios of highway lighting as an example, the left and right two of highway While multiple main induction lamps and lanterns 31,31 ', 31 " are provided with, for incuding the people to walk about on highway or vehicle.It is worth mentioning Be, highway be additionally provided with first host 11 being communicatively coupled respectively with the main induction lamps and lanterns 31,31 ', respectively with Second host 12 that the main induction lamps and lanterns 31 ', 31 " are communicatively coupled.

Specifically, wherein it is logical by the described first narrow frequency between the main induction lamps and lanterns 31 and the main induction lamps and lanterns 31 ' News frequency section is communicated, wherein logical by the described second narrow frequency between the main induction lamps and lanterns 31 ' and the main induction lamps and lanterns 31 " News frequency section is communicated.Specifically, when vehicle or people go in the illumination region of the main induction lamps and lanterns 31, the main induction lamp Tool 31 senses vehicle or walking about for people and is lit that the first transmitting host 111 of first host 11 is triggered and sends out First channel signal is sent, is believed wherein first receiving host 112 of first host 11 receives the channel one Number and light the main induction lamps and lanterns 31 ' in advance.And when vehicle or people further go to the illumination region of the main induction lamps and lanterns 31 ' When interior, the second transmitting host 121 of second host 12 is triggered and sends the second channel signal, wherein described Second receiving host 122 of second host 12 receives the second channel signal and lights the main induction lamps and lanterns in advance 31".It is to be understood that one signal of channel can not communicate in the described second narrow frequency communication frequency band, the second channel Signal can not also communicate in the described first narrow frequency communication frequency band, that is to say, that the first narrow frequency communication frequency band only can be for First channel signal sends and receives, and the second narrow frequency communication frequency band only can be for the second channel signal It sends and receives, therefore the communication between the first narrow frequency communication frequency band and the second narrow frequency communication frequency band is not interfere with each other. That is, each narrow frequency communication frequency band represents the transmitting of the signal of different communication frequencies, different communication frequency signals Communication have uniqueness, with this can while the speed of improve data transfer improve data transfer accuracy.

It is to be understood that Fig. 6 A and Fig. 6 B show the point-to-point communication mode of the narrow frequency communication system of the multichannel. In this embodiment, the main induction lamps and lanterns 31 are passed by the described first narrow frequency communication frequency band to the main induction lamps and lanterns 31 ' Delivery signal and the main induction lamps and lanterns 31 ' transmit signal to the main induction lamps and lanterns 31 " by the described second narrow frequency communication frequency band. In some embodiments of the invention, wherein the main induction lamps and lanterns 31 " can also be provided through the described first narrow frequency communication Frequency communication transmits signal to the main induction lamps and lanterns 31 ' and correspondingly the main induction lamps and lanterns 31 ' are narrow by described second Frequency communication frequency band transmits signal to the main induction lamps and lanterns 31.And in some embodiments of the invention, wherein the main induction Lamps and lanterns 31 can also respectively by the described first narrow frequency communication frequency band and the second narrow frequency communication frequency band respectively with the main sense Lamps and lanterns 31 ', 31 " are answered to be communicated, that is to say, that the main induction lamps and lanterns 31,31 ', 31 " can be set to be led to by different News frequency rate is communicated, the invention is not limited in this regard.

As shown in Figure 6 C and 6 D, the narrow frequency communication system of the multichannel is explained in the second situation of the 4th application scenarios Bright, specifically, highway is provided with 11 He of the first host being communicatively coupled respectively with the main induction lamps and lanterns 31,31 ' Second host 12 being communicatively coupled respectively with the main induction lamps and lanterns 31 ', 31 ", that is to say, that the main induction lamp Tool 31 and the main induction lamps and lanterns 31 ' are provided through the described first narrow frequency communication frequency band communication, the main induction lamps and lanterns 31 ' and The main induction lamps and lanterns 31 " are provided through the described second narrow frequency communication frequency band communication.

Specifically, when the main induction lamps and lanterns 31 ' sense that vehicle or people are walked about, the main induction lamps and lanterns 31 ' are controlled It lights, the first transmitting host 111 of first hosts 11 of the main induction lamps and lanterns 31 ' and second host 12 The second transmitting host 121 is concurrently triggered.Specifically, the first transmitting host 111 of first host 11 is sent First channel signal is to first receiving host 112, to light the main induction lamps and lanterns 31 in advance；Described second is main The second transmitting host 121 of machine 12 sends the second channel signal to second receiving host 122, thus predicted point The bright main induction lamps and lanterns 31 ", it is, therefore, understood that the main induction lamps and lanterns 31 ' pass through the described first narrow frequency communication respectively Frequency range and the second narrow frequency communication frequency band are communicated with the main induction lamps and lanterns 31 and the main induction lamps and lanterns 31 ", with this Communication of the main induction lamps and lanterns 31 ' respectively between the main induction lamps and lanterns 31 and the main induction lamps and lanterns 31 " is not interfere with each other.

It is noted that wherein the communication between the main induction lamps and lanterns 31 ' and the main induction lamps and lanterns 31 " can also be with It is communicated by control model.Specifically, when the main induction lamps and lanterns 31 ' are lit and trigger the first transmitting master When machine 111, the first transmitting host 111 sends first channel signal to first receiving host 112 to mention first Before light the main induction lamps and lanterns 31, then, it is described first transmitting host 111 is switched to the described second narrow frequency communication frequency band, To emit the second channel signal, second receiving host 122 of second host 12 receives the second channel letter Number and light the induction lamps and lanterns 31 " in advance.It is to be understood that under this communication mode, although second receiving host The second channel signal transmitted by the 122 received first transmitting hosts 111, but second receiving host 122 It is received to be still by the signal of the described second narrow frequency communication frequency band transmission, that is to say, that the main induction lamps and lanterns 31 ' are still Respectively by the described first narrow frequency communication frequency band and the second narrow frequency communication frequency band come with main induction lamps and lanterns 31 and described Main induction lamps and lanterns 31 " are communicated without interfering with each other.

That is, the narrow frequency means of communication of multichannel can be realized the switching between different narrow frequency communication frequency bands and It selects different narrow frequency communication frequency bands to be communicated, be conducive to the application range for expanding the narrow frequency means of communication of the multichannel and mention High communication efficiency, wherein it is understood that switching of the first transmitting host 111 between different narrow frequency communication frequency bands Sequence can be set and be advantageously implemented the control with specific direction, and a such as point-to-point hair one receives control, point forward Control and point control backward, and the present invention is not intended to limit this.

It is also understood that being, even if second host 12 is without the second transmitting host 121, the main induction lamps and lanterns 31 ' are still able to communicate by the described second narrow frequency communication frequency band with the main induction lamps and lanterns 31 " in a controlled fashion.

In addition, it's also worth mentioning that in the latter case, the main induction on the 31 ' both sides of main induction lamps and lanterns Lamps and lanterns 31,31 " can be lighted in advance, therefore in practical applications, can mention without judging the moving direction of vehicle or people Before light lamps and lanterns in order to actual use.

As shown in Fig. 6 E and Fig. 6 F, the narrow frequency communication system of multichannel is explained in the third situation of the 4th application scenarios Bright, it illustrates a kind of application model of the narrow frequency communication system of the multichannel combined with coded address.Specifically, highway is arranged There is first host 11 being communicatively coupled respectively with the main induction lamps and lanterns 31,31 ', 31 ", wherein first host 11 include a first transmitting host 111 and two first receiving hosts 112.

Specifically, when the main induction lamps and lanterns 31 ' sense that vehicle or people are walked about, the main induction lamps and lanterns 31 ' are controlled The first transmitting host 111 of first host 11 is lighted and triggers, wherein the first transmitting host 111 is sent respectively It is endowed first channel signal of the first address and is endowed two address first channel signal to two described the One receiving host 112, to light the main induction lamps and lanterns 31 and the main induction lamps and lanterns 31 " in advance respectively.

It is to be understood that since first channel signal that the first transmitting host 111 is sent respectively has difference Coded address, therefore can only receive when with first receiver 112 that the coded address matches with the coding First channel signal of address, therefore the transmitting target of first channel signal with different coding address is unique , thus the transmitting between first channel signal with different coding address will not interfere with each other, to improve information The reliability of transmission, while improving the traffic of each narrow frequency communication frequency band and being conducive to raising communication efficiency, be conducive to be grouped It communicates and is easy to implement batch and is precisely controlled.

It is noted that in some embodiments of the invention, wherein first host 11 also may include multiple First receiving host 112, correspondingly, it is described first transmitting host 111 can emit respectively it is multiple be endowed it is different First channel signal of coded address controls multiple main senses to corresponding first receiving host 112 respectively Answer lighting in advance for lamps and lanterns, thus the present invention to the quantity of first receiving host 112 with no restriction.

Particularly, in some embodiments of the invention, wherein 111 energy of the first transmitter of first host 11 Enough while two or more narrow frequency communication frequency bands is provided, is conducive to packet communications and is easy to implement batch and is precisely controlled, simultaneously It is advantageously implemented the control with multidirectional, such as multicast control of point forwards, backwards.

In addition, it's also worth mentioning that in some embodiments of the invention, wherein first host 11 also can wrap Include it is multiple it is described first transmitting hosts 111, wherein it is each it is described first transmitting host 111 respectively with each first receiving host 112 is corresponding, and with this when first host 11 is triggered, each first transmitting host 111 sends corresponding respectively First channel signal is exposed the corresponding master to matched first receiving host 112 with predicted point respectively Incude lamps and lanterns.It is also understood that first host 11 passes through multiple first transmitting hosts 111 and multiple described first Receiving host 112 can light multiple main induction lamps and lanterns in advance simultaneously, therefore the present invention is to the first transmitting host 111 Quantity also with no restriction.

It is to be understood that the narrow frequency of multichannel is logical in the 4th application scenarios of the narrow frequency communication system of the multichannel There are many modes of the information transmitting of news system and direction, for example, in some embodiments of the invention, wherein described first is main Machine 11 also may include multiple first receiving hosts 112, and plurality of first receiving host 112 is respectively with described One transmitting host 111 is corresponding, to realize that a hair is more to the reception of same channel signal by multiple receiving hosts 112 The control of receipts；For another example in some embodiments of the invention, the same receiving host 112 is provided having multiple narrow frequencies Communication frequency band, with the reception of the different channels signal emitted by the receiving host 112 multiple transmitting hosts 111 Realize multiple one control received, the invention is not limited in this regard.

Schematic lighting apparatus

According to another aspect of the present invention, as shown in figs. 7 a-b, one embodiment of the invention further provides one kind Lighting apparatus is configured with the host or slave of the narrow frequency communication system of multichannel according to the present invention, described will pass through The narrow frequency communication system of multichannel carries out noiseless communication, and then realizes the self-management of the lighting apparatus.

Illustratively, as shown in Figure 7 A, the lighting apparatus 40A is implemented as a main induction lamps and lanterns, including a lamps and lanterns sheet Body 41A, a sensing device 42A and a host 10, wherein the sensing device 42A and the host 10 be arranged at it is described Light fitting body 41A, and the sensing device 42A is communicatively coupled with the host 10 and the light fitting body 41A respectively. The light fitting body 41A is used for luminous lighting.The sensing device 42A is for incuding the light fitting body 41A peripheral motor People or object, and in the people or object for sensing movement, Xiang Suoshu light fitting body 41A and the host 10 issue action command Signal.The light fitting body 41A be used in response to the action command signal from the sensing device 42A, be lit with It is illuminated.The host 10 include one transmitting host 101, wherein the transmitting host 101 be provided to have one preset it is narrow Frequency communication frequency band, in response to the action command signal from the sensing device 42A, be triggered with emit with it is described Preset the signal that narrow frequency communication frequency band matches.It presets narrow frequency communication frequency band it is understood that described and may be implemented as institute The first narrow frequency communication frequency band is stated, so that the host 10 is implemented as first host 11；Or described preset the communication of narrow frequency Frequency range may be implemented as the described second narrow frequency communication frequency band, so that the host 10 is implemented as second host 12；Again It presets narrow frequency communication frequency band alternatively, described and may be implemented as the narrow frequency communication frequency band of the third, so that the host 10 is by reality It applies as the third host 13.

Further, the host 10 of the lighting apparatus 40A can also include a receiving host 102, wherein described Receiving host 102 be provided to have it is described preset narrow frequency communication frequency band, for receive from described in other lighting apparatus 40A With the signal presetting narrow frequency communication frequency band and matching so that the light fitting body 41A of the lighting apparatus 40A in response to The described and signal presetting narrow frequency communication frequency band and matching, is lit to be illuminated.

Preferably, it has sent in the transmitting host 101 of the host 10 of the lighting apparatus 40A and has been preset with described After the signal that narrow frequency communication frequency band matches, the transmitting host 101 can also be controlled to switch to another different pre- If narrow frequency communication frequency band, for emitting and another channel signal presetting narrow frequency communication frequency band and matching；It is wherein described to connect Receiving host 102 can also receive with the identical channel signal for presetting narrow frequency communication frequency band, so that the lighting apparatus 40A The lamp main body 41A in response to the channel signal, be lit to be illuminated.In other words, the transmitting host 101 wraps A transmitter and a control module are included, wherein the control module is used to control the control of the transmitter, so that the transmitting Device, which switches to, a certain presets narrow frequency communication frequency band；Wherein the transmitter presets narrow frequency communication frequency band phase with described for emitting The signal matched.It is understood that when it is described preset narrow frequency communication frequency band be the described first narrow frequency communication frequency band when, it is described another Different narrow frequency communication frequency bands of presetting may be implemented as the described second narrow frequency communication frequency band or the narrow frequency communication frequency band of the third Etc. other different narrow frequency communication frequency bands, with realize carry out noiseless communication between different narrow frequency communication frequency bands.

Illustratively, as shown in Figure 7 B, the lighting apparatus 40B is implemented as one from induction lamps and lanterns, including a lamps and lanterns sheet Body 41B and a slave 20, wherein the slave 20 is arranged at the light fitting body 41B, and the slave 20 and the lamp Tool ontology 41B is communicatively coupled.The slave 20 is provided to have one and presets narrow frequency communication frequency band, for receive with it is described Preset the signal that narrow frequency communication frequency band matches.The light fitting body 41B is used in response to receiving via the slave 20 The signal is lit to be illuminated.It presets narrow frequency communication frequency band it is understood that described and may be implemented as described One narrow frequency communication frequency band, so that the slave 20, which is implemented as described first, receives slave 21；Or described preset the communication of narrow frequency Frequency range may be implemented as the described second narrow frequency communication frequency band, so that the slave 20, which is implemented as described second, receives slave 22；Or it is described preset narrow frequency communication frequency band and may be implemented as the narrow frequency communication frequency band of the third so that the slave 20 It is implemented as the third and receives slave 23.

It is worth noting that, in this example of the invention, although the slave 20 of the lighting apparatus 40A can be with Corresponding channel signal is received, but the light fitting body 41B will not respond the channel signal and be lit, that is to say, that The light fitting body 41B will not be lit due to the slave 20 receives the channel signal, help to realize automation control System.Certainly, in other examples of the invention, the slave 20 of the lighting apparatus 40A is receiving corresponding channel letter Number when, the light fitting body 41B is able to respond the channel signal and is lit, that is to say, that the light fitting body 41B can It is lit due to the slave 20 receives the channel signal, to meet specific application scenarios.

It is noted that those skilled in the art and should be appreciated that lighting for the light fitting body is not limited to The regulation process of the corresponding channel signal and the light state that arrives is received in state of turning off the light, may also be understood to be and connect in the state of turning off the light It receives the corresponding channel signal and the low bright/half bright state that arrive, or receives the channel signal accordingly in low bright/half bright state And the regulation process for the light state that arrives, the present invention are not intended to limit this.

It should be understood by those skilled in the art that foregoing description and the embodiment of the present invention shown in the drawings are only used as illustrating And it is not intended to limit the present invention.The purpose of the present invention has been fully and effectively achieved.Function and structural principle of the invention exists It shows and illustrates in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.

Claims (24)

1. a kind of narrow frequency means of communication of multichannel, which is characterized in that comprising steps of

One communication frequency band is divided at least two narrow frequency communication frequency bands, wherein the communication frequency per the narrow frequency communication frequency band is mutually not It is identical, and at least one first channel signal is sent in the wherein one narrow frequency communication frequency band；With

First channel signal is received in the narrow frequency communication frequency band of correspondence first channel signal, not need to coordinate Device and distinguish the different channels signal in the same communication frequency band by the different narrow frequency communication frequency bands.

2. the narrow frequency means of communication of multichannel as described in claim 1, wherein switch to a narrow frequency communication frequency band another The narrow frequency communication frequency band, to carry out the step of interference-free communication, including step between the different narrow frequency communication frequency bands It is rapid:

In the first narrow frequency communication frequency band being previously set, it is loaded into and transmits first channel signal；With

After first channel signal is transmitted, the second narrow frequency communication frequency band is switched to, to be loaded into and transmit second Channel signal, wherein the communication frequency of the first narrow frequency communication frequency band is different from the communication frequency of the described second narrow frequency communication frequency band Rate.

3. the narrow frequency means of communication of multichannel as claimed in claim 2, wherein switch to a narrow frequency communication frequency band another The narrow frequency communication frequency band, the step of progress interference-free communication, to further include between the different narrow frequency communication frequency bands Step:

After the second channel signal is transmitted, the narrow frequency communication frequency band of third is switched to, to be loaded into and transmit third Channel signal, wherein the communication frequency of the narrow frequency communication frequency band of the third is different from the described first and second narrow frequency communication frequency bands Communication frequency.

4. the narrow frequency means of communication of multichannel as claimed in claim 3, wherein the second narrow frequency communication frequency and the third The frequency separation of narrow frequency communication frequency is mutually non-conterminous.

5. the narrow frequency means of communication of multichannel as described in any in Claims 1-4, wherein the signal can only be by setting in advance The transmitter determined at or switch to the narrow frequency communication frequency band to match emits；And the signal can only be by being previously set into The receiver of the narrow frequency communication frequency band to match receives.

6. the narrow frequency means of communication of multichannel as claimed in claim 5, wherein different first channel signals has difference Coded address.

7. a kind of narrow frequency communication system of multichannel characterized by comprising

At least one first host, wherein including one first transmitting host per first host, wherein the first transmitting host It is provided to have the first narrow frequency communication frequency band, for being triggered to emit match with the described first narrow frequency communication frequency band the One channel signal；

At least one second host, wherein including one second transmitting host per second host, wherein the second transmitting host It is provided to have the second narrow frequency communication frequency band, for being triggered to emit match with the described second narrow frequency communication frequency band the Two channel signals, wherein the communication frequency of the second narrow frequency communication frequency band is different from the communication of the described first narrow frequency communication frequency band Frequency；

At least one first receives slave, wherein being provided to have the described first narrow frequency communication frequency per the first reception slave Section, for receiving first channel signal；And

At least one second receives slave, wherein being provided to have the described second narrow frequency communication frequency per the second reception slave Section, for receiving the second channel signal.

8. the narrow frequency communication system of multichannel as claimed in claim 7, further includes an at least third host and at least a third connects Slave is received, wherein including that a third emits host per the third host, wherein third transmitting host is provided to have The narrow frequency communication frequency band of third, for being triggered to emit the third channel signal to match with the narrow frequency communication frequency band of the third, Wherein the communication frequency of the narrow frequency communication frequency band of the third is different from the communication frequency of the described first and second narrow frequency communication frequency bands Rate；Slave is wherein received per the third and is provided to have the narrow frequency communication frequency band of the third, for receiving the third letter Road signal.

9. the narrow frequency communication system of multichannel as claimed in claim 8, wherein further include one first reception per first host Host, wherein first receiving host is provided to have the described first narrow frequency communication frequency band, for receiving first letter Road signal；It further include one second receiving host per second host, wherein second receiving host is provided to have institute The second narrow frequency communication frequency band is stated, for receiving the second channel signal；It further include that a third receives master per the third host Machine, wherein the third receiving host is provided to have the narrow frequency communication frequency band of the third, for receiving the third channel Signal.

10. the narrow frequency communication system of multichannel as claimed in claim 9, wherein the first transmitting master of first host Machine is controlled to switch to the described second narrow frequency communication frequency band, for emitting match with the described second narrow frequency communication frequency band the Two channel signals；Wherein second receiving host of second host is also used to receive the second channel signal.

11. the narrow frequency communication system of multichannel as claimed in claim 10, wherein the first transmitting master of first host Machine is further controlled to switch to the narrow frequency communication frequency band of the third, for emitting and the narrow frequency communication frequency band phase of the third The third channel signal matched；Wherein the third receiving host of the third host is also used to receive the third channel letter Number.

12. the narrow frequency communication system of multichannel as described in any in claim 8 to 11, wherein described second receives slave also For receiving first channel signal and/or the third channel signal；Wherein the third receives slave and is also used to receive First channel signal and/or the second channel signal.

13. the narrow frequency communication system of multichannel as described in any in claim 7 to 11, wherein be suitable for per first host The main induction lamps and lanterns in a lighting system are communicatively connected in a network, for sensing people or the object of movement when the main induction lamps and lanterns When body, the first transmitting host of first host is for being triggered to emit first channel signal.

14. the narrow frequency communication system of multichannel as claimed in claim 12, wherein be suitable for per first host by communicably A main induction lamps and lanterns of a lighting system are connected to, wherein when the main induction lamps and lanterns sense the people or object of movement, it is described The first transmitting host of first host is for being triggered to emit first channel signal.

15. the narrow frequency communication system of multichannel as claimed in claim 14, wherein the first transmitting master of first host Machine is also used to after first channel signal is launched completion, is switched to the described second narrow frequency communication frequency band, with transmitting The second channel signal.

16. the narrow frequency communication system of multichannel as claimed in claim 15, wherein described first when first host receives When host receives first channel signal, first host is also used to regulate and control to be communicatively coupled with first host The main induction lamps and lanterns.

17. the narrow frequency communication system of multichannel as claimed in claim 16, wherein described second when second host receives When host receives the second channel signal, second host is also used to regulate and control to be communicatively coupled with second host The main induction lamps and lanterns.

18. the narrow frequency communication system of multichannel as claimed in claim 16, wherein be suitable for be led to per the first reception slave Letter ground is connected to the one of the lighting system from induction lamps and lanterns, wherein believing when the first reception slave receives first channel Number when, it is described first reception slave be also used to regulate and control with it is described first reception slave be communicatively coupled should from induction lamps and lanterns.

19. a kind of lighting apparatus characterized by comprising

One light fitting body is used for luminous lighting；

One sensing device, wherein the sensing device is communicably set to the light fitting body, for incuding the lamps and lanterns The people or object of ontology peripheral motor, and in the people or object for sensing the movement, action command signal is issued, so that described Light fitting body is adjusted in response to the action command signal to be illuminated；And

One host, wherein the host includes a transmitting host being communicatively coupled with the sensing device, wherein the hair Host is penetrated at least two narrow frequency communication frequency bands and is set with the wherein one narrow frequency communication frequency band in response to the movement Command signal, and be triggered to emit the channel signal to match with the frequency of the narrow frequency communication frequency band phase.

20. lighting apparatus as claimed in claim 19, wherein the host further include one with the light fitting body communicably The receiving host of connection, wherein the receiving host is provided to have at least one narrow frequency communication frequency band, for receive with The signal that the narrow frequency communication frequency band matches, so that the light fitting body is used to respond the letter to match with the narrow frequency communication frequency band Number and be adjusted to be illuminated.

21. lighting apparatus as claimed in claim 20, wherein the transmitting host of the host is also used to be controlled to cut Another narrow frequency communication frequency band is shifted to, to emit the signal to match with the narrow frequency communication frequency band, is suitable for that there is the narrow frequency The receiving host of communication frequency band receives so that the response of another light fitting body and the signal that the narrow frequency communication frequency band matches and adjusted Control is to be illuminated, wherein the communication frequency of the different narrow frequency communication frequency bands is different.

22. the lighting apparatus as described in any in claim 19 to 21, wherein via it is described transmitting host transmitting with it is corresponding The signal that the narrow frequency communication frequency band matches is further adapted for being received by the reception slave with the narrow frequency communication frequency band, so that with this Receive that slave is communicatively coupled is able to respond and is adjusted in the signal to match with the narrow frequency communication frequency band from induction lamps and lanterns Control is to be illuminated.

23. a kind of lighting apparatus characterized by comprising

One light fitting body is used for luminous lighting；With

One slave, wherein the slave is communicatively coupled with the light fitting body, wherein the slave is provided to have one Preset narrow frequency communication frequency band, for receive with the signal presetting narrow frequency communication frequency band and matching, wherein the light fitting body For presetting signal that narrow frequency communication frequency band matches with described in response to described and being adjusted to be illuminated.

24. lighting apparatus as claimed in claim 23, wherein the slave also is different from described presetting narrow frequency and communicating with having The narrow frequency communication frequency band of frequency range presets narrow frequency communication frequency band and presets narrow frequency communication frequency different from described can receive with described The signal that the narrow frequency communication frequency band of section matches, wherein the light fitting body presets narrow frequency communication frequency band with described for responding Signal with matching different from described narrow frequency communication frequency band for presetting narrow frequency communication frequency band, is adjusted to be illuminated.