CN107864682A

CN107864682A - Ultra-micro power consumption sender unit and its application

Info

Publication number: CN107864682A
Application number: CN201780000374.5A
Authority: CN
Inventors: 刘远芳; 廖旺宏
Original assignee: Individual
Current assignee: Shenzhen No Radio Technology Co Ltd
Priority date: 2017-05-27
Filing date: 2017-05-27
Publication date: 2018-03-30
Anticipated expiration: 2037-05-27
Also published as: CN112885070B; CN112885070A; WO2018218418A1; CN107864682B

Abstract

Ultra-micro power consumption wireless signal transmitting device, it includes：At least one switch on power after produce the controlling switch of at least one predetermined command information and at least one and burst unit, wherein the controlling switch and the unit of bursting can be operatively attached to together to complete the reception of command information, processing and send work, and after corresponding wireless signal is sent, before controlling switch reset disconnection, the unit control circuit of bursting enters power-down mode, to reduce the power consumption of power supply.

Description

Ultra-micro power consumption sender unit and its application

Technical field

The present invention relates to a sender unit, more particularly to a ultra-micro power consumption sender unit and its application.This is super Micro energy lose sender unit has one to burst unit, and the sudden unit can control an electronic switch mould before power supply disconnection Block is cut off the electricity supply, so as to reduce idling consumption, to extend the service life of power supply.

Background technology

Sender unit such as remote control are widely used in life, the television set in household electrical appliance, air-conditioning, sound equipment with And the electric car in the vehicles, the key of motorcycle and automobile etc. is useful for Digiplex.But Digiplex Battery is all very short, typically will change one-shot battery at 3 months to 2 years, and frequently change battery it is both uneconomical or Not environmentally.Old and useless battery not only produces harmful effect to environment, and life is brought inconvenience, and can also cause to design remote controller structure Limitation.For example the outward appearance of many Digiplexs and size are intended to the size in view of battery and replacing now.Particularly exist Under the small size and lightening trend of remote control design at present, the space of battery position and the replacing of battery need as its structure design The outstanding problem to be considered.

At present, many remote controls are the design for aesthetic for realizing that its small size is lightening, using small cell or button cell, This results in the reduction of its battery capacity.In addition, the replacing design of battery is relatively cumbersome, certain change has been carried out although designing it Enter, but its work average power consumption is not improved accordingly so that the battery of remote control does not obtain Improve even lower.Current remote control energy consumption mainly includes the following aspects：1, signal transmitting energy consumption, existing remote control work( Consume larger, the energy that consumes is excessive during per task, and operating current of the usual remote control in transmission signal is in 30-60mA, hair The duration of signal is penetrated about in 0.5S-1S；2, standby-state energy consumption, existing remote control uses sleep side when standby mostly Formula, is not fully disconnected power supply, and the circuit also standby current with microampere order consumes, for a long time from the point of view of, can also make the energy content of battery Reduce；3, battery itself energy consumption, common batteries can cause the energy of battery mostly in 1-2 due to the characteristics of self-discharge current is big Inside it is exhausted.As can be seen here, on the one hand on the other hand the service life for improving remote controller battery is the capacity of raising battery Then it is the average power consumption for reducing remote control.

, there is the remote control of the solar cell for supplying power of sustainable charging in the market in capacity for improving battery Device.Because the transmitting power consumption of existing remote control circuitry is larger, and the efficiency of solar cell photoelectric conversion is low, electric current is small, therefore The larger solar cell of area must be used.In addition, the battery is needed under the situation good by illumination, remote control could be maintained The normal work of device, this just makes it using being restricted significantly by environment, especially in the more countries and regions of rainy weather. Electric current is about in 30-60mA when general remote control work, if being directly driven with solar cell, in the best feelings of illuminance The silicon photocell of one piece of 75mm*75mm area is needed just to produce about 50mA peak point current under condition.This battery, not only volume It is very large, and the electric current that environment and the weaker environment of illumination can provide indoors is very small, it is difficult to maintain remote control normal work. And if can not only increase product cost using greater area of solar cell, while can also influence the attractive in appearance of remote control and set Meter.Power consumption is big when therefore in actual applications, due to the circuit work of the existing remote control using solar cell, solar energy Electric current caused by battery can not directly drive remote control, it is necessary to be charged in advance to the farad capacitor of Large Copacity, when being charged to It could meet to power to remote control circuit during certain electricity, but the life-span of this farad capacitor general 3-5, which limits The service life of the existing remote control using solar cell.In addition, the remote control of existing solar energy is to photoenvironment requirement Harshness, illuminance is slightly inadequate, just can not normal work, Experience Degree is poor, and industrial applicibility is not strong.

The light source of prior art such as LED, incandescent lamp, electricity-saving lamp are all to need to arrange wired open during installation Close to control.In a set of room, it usually needs individual cable switch more than pre-buried ten, it is necessary on wall raggle connect up, very Time-intensive, expensive, efficiency is also very low；And traditional wire switch just can not flexibly change position once installing, from And the inconvenience of user can be caused.Electric light needs cloth control line and buries switch on wall, and this is electric light invention more than 100 years so far Never thoroughly to solve the problems, such as.All the time, lamp and the controlling switch industry that to be belonging respectively to two different, product is not There is very proper be merged.

Although some present light fixtures are also equipped with remote control control, it is possible to achieve the function of remote control, come to a certain extent Say also without wiring, but the mode of existing remote control control light fixture is a kind of supplement application side of interim transition in living Formula, it can not really substitute the effect of wired switch on wall, therefore can not extensive use under construction.It is to find out its cause, existing distant It is short to control device service life, poor reliability；Cable switch is more than 12 years even more long usually using the time, and the battery of remote control is but It can only use 3-36 months, for the many-side such as economy, reliability, durability and psychological application of user, existing skill In art, also without the technical scheme that can thoroughly solve electric light and exempt from cloth control line.

The content of the invention

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched Device can save significantly on power consumption, so as to realize that the ultra-micro power consumption recoil simulator can be for a long time in the case where being changed without battery Work, reach saving expense, reduce the purpose of maintenance and energy-conserving and environment-protective.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched Device can be cut off larger to a power consumption after preset coding information is sent, before controlling switch cuts off the electricity supply The electric energy supply of radiating circuit, to reach the technique effect for saving electric energy.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched Device after preset coding information is sent, before controlling switch cuts off the electricity supply, can make the electric current in circuit from work Power save mode is reduced to as state, to reach the technique effect for saving electric energy.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The power consumption of device is smaller, can normal work using a micro-energy battery.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The power consumption of device is smaller, can be operated using the less light energy battery of area.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, wherein photocell power supply can be set In the tow sides of the ultra-micro power consumption sender unit, so, no matter the ultra-micro power consumption sender unit is put in any case Illumination can all be received by putting, so as to convert light energy into electric energy.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, and it includes a storage capacitor, can be with The electric energy of supplied by photoelectric cell conversion is stored, for the use of the work of the ultra-micro power consumption sender unit.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, wherein intensity of illumination it is weaker or In the case of not having illumination in certain time, the ultra-micro power consumption sender unit can also normal use.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched Device can according to controlling switch press and different twice coding information caused by resetting action twice and send phase twice The wireless signal answered.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched Device can realize the regulation of stepless variable.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, and it further comprises constant pressure member Part, with the stabilization of voltage in holding circuit.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched Device can according to controlling switch press and different twice coding information realizes stepless variable caused by resetting action twice Regulation.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, wherein in the stepless change of coding information During amount regulation, after the first wireless signal is sent, the radiating circuit of the ultra-micro power consumption sender unit, which enters, stops Dormancy state, to reduce the electric current in circuit, so as to reduce power consumption.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, wherein further comprising delay electricity Hold, the delay capacitor provides an electric energy to send second of coding information for the circuit.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The message length that the wireless signal of the wireless signal transmitting module transmitting of device is included is the data of 1-48 byte, is significantly saved Save energy.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The transmission speed of the wireless signal transmitting module of device is 1Kbps-2Mbps, to be quickly sent data, saves electric energy.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The tranmitting frequency of the wireless signal transmitting module of device is arranged between 10MHZ-50GHZ, to obtain good transmission range,

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The tranmitting frequency of the wireless signal transmitting module of device is arranged to more than 1GHZ, with higher transmission bandwidth, so that number According to launch time can be with shorter.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The power setting of the wireless signal transmitting module of device is 0.1mW-50mW, so that the ultra-micro power consumption sender unit has one Fixed command range, but be not easy to disturb miscellaneous equipment.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The frame data used time that the wireless signal transmitting module of device is sent is 0.2ms-30ms to realize the optimal effect for saving electricity.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched The coding information of the transmission of device can be sent repeatedly, to strengthen the accuracy of coding information transmission, so as to reduce transmission process The bit error rate.

It is an object of the present invention to provide a ultra-micro power consumption sender unit, the wherein ultra-micro power consumption signal is launched Device can apply to art of keypads, wireless switching field, Lighting control field, smart home field, appliance remote control field, machine Tool control field, wireless doorbell, the light fixture of controlled in wireless, the electrically driven curtain of controlled in wireless, air-conditioning, electric clothes airing machine, super bath, electricity Depending on the wireless remote control of the products such as machine, sound equipment, the remote-control key of electric car, motorcycle, automobile etc., and the field such as Wireless Keyboard.

It is an object of the present invention to provide a controlled electrical equipment, the wherein controlled electrical equipment can receive at least one control and refer to Order, and corresponding work is completed according to the control instruction.

It is an object of the present invention to provide a controlled electrical equipment, wherein the controlled electrical equipment can interpolate that between signal twice Corresponding work is completed every the time, and according to different interval times.

It is an object of the present invention to provide a controlled electrical equipment, the wherein controlled electrical equipment can realize the stepless-adjustment of variable Section.

It is an object of the present invention to provide an integrated optical source, wherein the electric power for integrated optical source input is divided into two Road, wherein working power of at least execution unit as the execution unit is supplied after the rectified decompression of electric power all the way, so that should Execution unit is in continual stand-by operation state；Another way electric power is controlled by the execution unit, to drive an at least light Source lights.

It is an object of the present invention to provide an integrated optical source, concentrates the integrated optical source to can interpolate that control instruction twice Interval time, and corresponding work is completed according to different interval time.

It is an object of the present invention to provide a remote control electrical appliance system, the wherein remote control electrical appliance system includes at least one surpassing Micro energy lose sender unit and at least one controlled electrical equipment.

It is an object of the invention to provide at least one to exempt from cloth control line source system, and wherein this exempts from cloth control line source system Including at least a ultra-micro power consumption sender unit and at least a light source, wherein integrated optical source and the wireless transmitting device of ultra-micro power consumption Between form the indivisible one luminous entirety with control so that this, which exempts from cloth control line source system, not only carries extraordinary make With the wireless control switch in life-span, also eliminate purchase switch again and chisel wall paper puts the work of switch.

It is an object of the invention to provide a ultra-micro power consumption sender unit, wherein the ultra-micro power consumption sender unit It can be powered by an electric pulse.

It is an object of the invention to provide at least one to exempt from cloth control line source system, and wherein this exempts from cloth control line source system With good integrity, exempt from cloth control line, the remarkable advantage of easy to use, non-maintaining, long-life and energy-conserving and environment-protective, so as to thoroughly Solve the problems, such as that traditional electric light needs to arrange control line.

According to the present invention, to reach a above at least purpose, the invention provides a ultra-micro power consumption sender unit, and it is wrapped Include：At least one switch on power after produce the controlling switch of at least one predetermined command information and at least one and burst unit, wherein institute State and burst unit and the controlling switch can be operatively attached to together to complete the reception of command information, processing and send work Make, and after corresponding wireless signal is sent, before controlling switch reset disconnection, the unit of bursting enters to fall Power mode, to reduce the power consumption of power supply.

One wireless signal transmitting method, it comprises the following steps：

(a) switch on power and produce at least one preset command information；

(b) at least one unit of bursting obtains electric energy, and the command information is received, wherein in the time no more than 100ms It is interior to send corresponding wireless signal at least once；

(c) after the wireless signal is sent, before power supply disconnection, the unit triggers circuit entrance of bursting Power-down mode；With

(d) physics disconnects the power supply.

One wireless signal transmitting method, it comprises the following steps：

(a) switch on power and produce at least one the first preset command information；

(b) at least one burst unit obtain electric energy, wherein receive first command information and no more than 100ms when It is interior to launch corresponding first wireless signal at least once；

(c) after first wireless signal transmission finishes, before power supply disconnection, residing unit triggers circuit of bursting Into power-down state；

(d) the physics disconnection power supply concurrently sends out the second command information at least once；

(e) an at least power supply unit discharges to provide electric energy；With

(f) unit of bursting receives second command information and launches corresponding second wireless singal at least once, Wherein whole circuits enter power-down mode.

One wireless signal transmitting method, it comprises the following steps：

(a) connect an at least power supply and produce at least one the first preset command information；

(b) unit of bursting obtains electric energy, and receives first command information, wherein no more than 100ms when It is interior to launch corresponding first wireless signal at least once；

(c) before the power supply disconnects, after first wireless signal is sent, the unit of bursting enters energy-conservation State；

(d) unit of bursting recovers to working condition from power save mode；

(e) power supply, which disconnects, concurrently sends out at least one second command information；With

(f) receive second command information and launch corresponding second wireless singal at least once, wherein whole circuits Into power-down mode.

One remote control electrical appliance system, it includes an at least ultra-micro power consumption sender unit, an at least execution unit and at least One terminal device, wherein the execution unit receives the wireless communication at least once of the ultra-micro power consumption sender unit transmitting Number, and the wireless signal is sent to the execution unit, to control the execution unit to complete corresponding work.

One ultra-micro power consumption sender unit, it includes：At least one bursts unit and an at least power input, wherein when During the power input input power, the unit of bursting completes wireless signal at least once within the time less than 30 milliseconds Transmitting work, wherein after the wireless signal is sent, the unit of bursting enters power failure state, average so as to reduce Power consumption.

Brief description of the drawings

It is the block schematic illustration of a ultra-micro power consumption sender unit of a preferred embodiment of the present invention as shown in Figure 1.

It is illustrated in figure 2 the block schematic illustration of a controlling switch of the above preferred embodiment of the present invention.

The block schematic illustration that be illustrated in figure 3 the above preferred embodiment of the present invention one bursts unit.

It is illustrated in figure 4 the module map of the ultra-micro power consumption sender unit of the above preferred embodiment of the present invention.

It is illustrated in figure 5 the circuit diagram of the ultra-micro power consumption sender unit of the above preferred embodiment of the present invention.

It is illustrated in figure 6 the framework signal of the ultra-micro power consumption sender unit of the above preferred embodiment of the present invention Figure.

It is illustrated in figure 7 the circuit diagram of the ultra-micro power consumption sender unit of the above preferred embodiment of the present invention.

It is illustrated in figure 8 the circuit diagram of the ultra-micro power consumption sender unit of the above preferred embodiment of the present invention.

It is illustrated in figure 9 the framework signal of the ultra-micro power consumption sender unit of the above preferred embodiment of the present invention Figure.

The ultra-micro power consumption sender unit for the above preferred embodiment of the present invention launches wireless communication as described in Figure 10 The logic chart of number process.

The ultra-micro power consumption sender unit for the above preferred embodiment of the present invention launches wireless communication as described in Figure 11 The logic chart of number process.

The ultra-micro power consumption sender unit for the above preferred embodiment of the present invention launches wireless communication as described in Figure 12 The logic chart of number process.

It is as shown in figure 13 the ultra-micro power consumption sender unit transmission signal institute of above preferred embodiment of the invention The contrast schematic diagram of time used in time and the transmitting of existing remote control.

It is the block schematic illustration of a controlled electrical equipment of a preferred embodiment of the present invention as shown in figure 14.

It is the module map of the controlled electrical equipment of the above preferred embodiment of the present invention as shown in figure 15.

The controlled electrical equipment for the above preferred embodiment of the present invention launches the logic chart of wireless signal as shown in figure 16.

The framework for the integrated optical source of a variant embodiment of above preferred embodiment of the invention is illustrated as shown in figure 17 Figure.

It is the module map of the integrated optical source of the above-mentioned variant embodiment of the above preferred embodiment of the present invention as shown in figure 18.

What the integrated optical source for the above-mentioned variant embodiment of the above preferred embodiment of the present invention worked as shown in figure 19 patrols Collect figure.

It is the block schematic illustration of a remote control electrical appliance system of a preferred embodiment of the present invention as shown in figure 20.

It is the block schematic illustration of a controlled electrical equipment of the above preferred embodiment of the present invention as shown in figure 21.

It is the module map of the remote control electrical appliance system of the above preferred embodiment of the present invention as shown in figure 22.

It is the module map of the remote control electrical appliance system of the above preferred embodiment of the present invention as shown in figure 23..

Such as Figure 24

It show the logic of the transmitting wireless signal process of the remote control electrical appliance system of the above preferred embodiment of the present invention Figure.

It is the transmitting wireless signal process of the remote control electrical appliance system of the above preferred embodiment of the present invention as shown in figure 25 Logic chart.

It is the transmitting wireless signal process of the remote control electrical appliance system of the above preferred embodiment of the present invention as shown in figure 26 Logic chart.

One for a preferred embodiment of the present invention exempts from the block schematic illustration that cloth controls line source system as shown in figure 27.

It is the block schematic illustration of an integrated optical source of the above preferred embodiment of the present invention as shown in figure 28.

Such as Figure 29

Show the present invention above preferred embodiment this exempt from cloth control line source system module map.

It is as shown in figure 30 the module map exempted from cloth and control line source system of above preferred embodiment of the invention.

This of above preferred embodiment as shown in figure 31 for the present invention exempts from the transmitting wireless communication that cloth controls line source system The logic chart of number process.

It is as shown in figure 32 the transmitting wireless signal exempted from cloth and control line source system of above preferred embodiment of the invention The logic chart of process.

This of above preferred embodiment as shown in figure 33 for the present invention exempts from the transmitting wireless communication that cloth controls line source system The logic chart of number process.

Embodiment

Describe to be used to disclose the present invention below so that those skilled in the art can realize the present invention.It is excellent in describing below Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.Define in the following description General principle of the invention can apply to other embodiments, deformation program, improvement project, equivalent and do not carry on the back From the other technologies scheme of the spirit and scope of the present invention.

It will be understood by those skilled in the art that the present invention exposure in, term " longitudinal direction ", " transverse direction ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", the orientation of the instruction such as " outer " or position close System is to be based on orientation shown in the drawings or position relationship, and it is for only for ease of the description present invention and simplifies description, without referring to Show or imply that the device of meaning or element there must be preset orientation, with preset azimuth configuration and operation, therefore above-mentioned art Language is not considered as limiting the invention.

It is understood that term " one " be interpreted as " at least one " or " one or more ", i.e., in one embodiment, The quantity of one element can be one, and in a further embodiment, the quantity of the element can be multiple, and term " one " is no It is understood that as the limitation to quantity.

As Fig. 1 to scheme 13 show is ultra-micro power consumption sender unit according to a preferred embodiment of the present invention 100, the wherein ultra-micro power consumption sender unit 100 includes an at least controlling switch 10 and at least one and burst unit 20, the control System switch 10 and the ground that unit 20 can work of bursting link together, to complete the reception of command information, processing and send work Make, and after corresponding wireless signal is sent, before the controlling switch 10 reset disconnection, circuit is entered power down shape State, so as to reduce the energy expenditure to power supply used by the ultra-micro power consumption sender unit 100.It is noted that by Extremely low in the power consumption of the ultra-micro power consumption sender unit 100, therefore, the ultra-micro power consumption sender unit 100 can be by one Micro-energy battery (voltage 1.8-12V) such as button cell, lithium ion battery drive and normally worked.Certainly, should Ultra-micro power consumption sender unit 100 can also be driven and normal work by non-micro-energy battery, and the present invention is not done to this Limitation.

As shown in Fig. 2 the controlling switch 10 includes a trigger switch 11 and an instruction corresponding with the trigger switch 11 Switch 12.Specifically, when the trigger switch 11 is switched on respectively with the corresponding command switch 12, the trigger switch 11 is with being somebody's turn to do Power supply 10 is connected, meanwhile, the command switch 12 produces a corresponding command information.It is noted that the command information also may be used To be produced by sensor, such as temperature sensor, humidity sensor, luminance sensor, movable sensor, shock sensor, sound Sound sensor etc., the present invention are not intended to be limited in any in terms of this

Individually refer to it will be appreciated by those skilled in the art that each controlling switch 10 may be embodied as one Make button.Specifically, when operating personnel press the instruction button, the trigger switch 11 is respectively communicated with the command switch 12, To connect the power supply 10 and produce corresponding command information, reset the instruction button when operating personnel unclamp the instruction button When, the trigger switch 11 command switch 12 corresponding with this is disconnected, and instruction letter is simultaneously switched off so as to cut off the power supply 10 Breath.It is noted that multiple controlling switches 10 can also be embodied as an individually instruction button, in addition, the control is opened Pass can also be embodied as other structures, and the present invention is without limitation.

Specifically, as shown in figure 3, this is burst, unit 20 includes an at least electronic switch module 21, and at least one bursts control Module 22, at least a coding module 23, and an at least wireless signal transmitting module 24, the wherein electronic switch module 21, this is sudden Sending out control module 22, the coding module 23, and the wireless signal transmitting module 24 can be operatively attached to together with the control Wirelessly moment (being less than 100ms, preferably 1ms) completes the transmitting of corresponding wireless signal under the triggering of switch 10 Process and after the wireless signal transmission, cuts off the power supply of itself, to reduce the ultra-micro power consumption sender unit 100 Power consumption.In addition, this is burst, unit 20 can complete preset work by the repeated trigger of controlling switch 10.

Specifically, the electronic switch module 21 can burst the control of control module 22 according to this, selectively close off or Open, so as to the supply of electric energy in control circuit.Specifically, when triggering the controlling switch 10 to connect the power supply and produce corresponding Command information after, this burst control module 22 control the electronic switch module 21 open so that unit, mould in circuit BOB(beginning of block) completes the generation of corresponding coding information according to the command information, sends and produce corresponding nothing according to the coding information Line signal and the work for being sent the wireless signal, wherein after the wireless signal transmission finishes, the controlling switch 10 Resetting before disconnecting, the control module 22 of bursting controls the electronic switch module 21 to close, so that circuit enters power-down state, To reduce energy consumption.

In this preferred embodiment of the present invention, the electronic switch module 21 includes an electrode tube assembly 211 and an electricity Component 22 is hindered, the wherein electrode tube assembly 211 includes one first triode 2111 and one second triode 2112, the resistor assembly 212 include a first resistor 2121, a second resistance 2122 and a 3rd resistor 2123, and first triode 2111, this second Triode 2112, the first resistor 2121, the second resistance 2122 and the arrangement mode of the 3rd resistor 2123 in a circuit As shown in Figure 7.Wherein, first triode 2111, second triode 2112 form an electronic switching circuit, the first resistor 2121, the second resistance 2122 and the 3rd resistor 2123 are respectively first triode 2111, and second triode 2112 carries For an operating voltage.It will be appreciated by those skilled in the art that in another embodiment of the invention, the electronic switch mould Block 21 can also be embodied as other modular structures, control of control module 22 as long as other modular structures can burst according to this System cuts off the power supply before the trigger switch 11 and the command switch 12 disconnect, so that the radiating circuit part that power consumption is larger Into the circuit module of off-position.For example the electrode tube assembly 211 includes one first triode 2111 and one the 2nd 3 Pole pipe 2112, the resistor assembly 212 include a first resistor 21212, a second resistance 2122, a 3rd resistor 2123 and one the Four resistance 2124, wherein, first triode 2111, second triode 2112, the first resistor 2121, the second resistance 2122, the 3rd resistor 2123 and the 4th resistance 2124 are arranged in circuit in the way of shown in Fig. 8.Wherein, this first Resistance 2121, the second resistance 2122, the resistance 2124 of 3rd resistor 2123 and the 4th are first triode 2111 and should Second triode 2112 provides operating voltage.It is noted that the triode component 211 of the electronic switch module 21 is somebody's turn to do First triode 2111 is under the high level effect of the first resistor 2121 of the resistor assembly 212, in a cut-off state, because This, each unit, module after the electronic switch module 21 are in off-position.

The module of the control module 22 for a reduction circuit power consumption of bursting, wherein, the control module 22 of bursting controls correlation Module (be less than 100ms, preferably 1ms) within the extremely short time and complete the transmitting work of this wireless signal, and in the nothing After line signal battery has fired, control the electronic switch module 21 to close rapidly, the larger radiating circuit of the power consumption is entered power-off State, so as to reduce the energy consumption of circuit.That is, after the wireless signal is sent, the controlling switch 10 reset it is disconnected Before opening, it is disconnected that the control module 22 of bursting has controlled the electronic switch module 21 closing to enter the larger radiating circuit of power consumption Electricity condition, so as to reduce the energy consumption to power supply.It is noted that in another embodiment of the present invention, it is wireless at this After signal battery has fired, the control module 22 of bursting controls the wireless signal transmitting module 24 to enter resting state, now whole Electric current in individual circuit drops to power save mode (such as 1mA) by working condition (such as 20mA).The control it is noted that this is burst Module 22 is by a programme-control to be automatically performed corresponding work, and wherein the completion of the work is not by external factor (such as external force) Control.That is, the external factor (such as external force) can only start corresponding system, for the system once starting, then pressing should The setting of preset program, the corresponding all working is rapidly completed automatically.Even if the external factor (such as external force) is held always Continuous to act on the controlling switch 10, the ultra-micro power consumption sender unit 100 will not also consume power supply, so as to reduce electric energy Consumption, extend the service life of the power supply 10.

Specifically, the coding module 23 receives the command information of the command switch 12, and produces corresponding coding information.Tool Body, when the trigger switch 11 command switch 12 corresponding with this is connected to connect the power supply and produce corresponding command information Afterwards, the coding module 23 receives the command information that the corresponding command switch 12 is sent and produces corresponding coding information.

It will be appreciated by those skilled in the art that the coding module 23 and the control module 22 of bursting may be embodied as One micro-control unit (MCU), as shown in figure 5, or the coding module 23 and the control module 22 of bursting be embodied as independence respectively Module, as shown in figure 4, the present invention it is without limitation.When the coding module 23 and the common implementing of control module 22 of bursting For micro-control unit (MCU) when, the micro-control unit (MCU) by a preset program come realize the coding module 23 and should The function of control module of bursting 22 or by some standard radio communications protocol such as Aluetooth, ZigAee, Z-Wave and WIFI It is stored in the micro-control unit (MCU) etc. communications protocol, and is sent out corresponding agreement by the wireless signal transmitting module 24 Give corresponding terminal device.It will be appreciated by those skilled in the art that the coding module 23 can also be embodied as other Independent module, is such as embodied as a single coding circuit, and the present invention is not intended to be limited in any to this.

The wireless signal transmitting module 24 receives the coding information that the coding module 23 is sent and launched corresponding at least once Wireless signal.It is noted that the wireless signal transmitting module 24 can with high frequency radio wave, electromagnetic wave, light wave or The radiation pattern of person's infrared ray sends the wireless signal, the invention is not limited in this regard.In this preferred embodiment of the present invention In, the wireless signal transmitting module 24 is embodied as a high-frequency emission chip, such as BB1310 the or AMIBBOM companies of TI companies A7319 etc..It will be appreciated by persons skilled in the art that the wireless signal transmitting module 24 can be various can realize wirelessly The radio transmitter or device of signal transmitting, such as amplitude shift keying circuit (ASK), FS keying circuit (FSK), phase-shift keying (PSK) It the high frequency radio transmitters such as circuit (PSK), can be RFID radio-frequency modules, can be mobile communication module, can be bluetooth The wireless communication modules such as communication module, WIFI communication module, Z-Wave communication modules, ZigAee communication modules, or can be Infrared transmission module such as infrared-emitting diode.I.e. as long as the wireless signal transmitting module 24 can realize the hair of the coding information Function is penetrated, the present invention is not so limited in this respect.It is noted that the wireless signal transmitting module 24 launches nothing The speed of line signal is 1Kbps-2Mbps, preferably transmission power 0.1mW-50mW, 5mW, launch wireless signal when Between be 0.2ms-30ms, the length for the message that the wireless signal of transmitting includes is 1-48 byte, preferably 10 bytes, wherein should Wireless signal transmitting module 24 is repeatable to send the wireless signal for including identical message.

It is noted that preferably, the wireless signal transmitting module 24 works in 10MHZ-50GHZ, and wherein this is wireless Signal emission module 24 can launch wireless signal with single-frequency, can also be in multiple channel Frequency hopping transmissions wireless signals, this Invention is not intended to be limited in any to this.

It will be appreciated by persons skilled in the art that the modulation system of the wireless signal transmitting module 24 can be amplitude shift keying Circuit (ASK), FS keying circuit (FSK), GFSK and OOK.In addition, the wireless signal that wireless signal transmitting module 24 is launched can With the program for being common own coding or being stored among the memory of the micro-control unit (MCU), the present invention to this not Impose any restrictions.

It is noted that when the control module 22 of bursting is embodied as independent module respectively with the coding module 23, The controlling switch 10, the control module 22 of bursting, the electronic switch module 21, the coding module 23 and the wireless signal transmission mould Block 24 links together according to what mode as shown in Figure 4 can work；When burst control module 22 and the reality of coding module 23 Apply for a micro-control unit (MCU) when, the controlling switch 10, the electronic switch module 21, the micro-control unit (MCU) and the nothing Line signal emission module 24 links together according to what mode as shown in Figure 6 can work.In addition, this is burst control module 22, The coding module 23 and the wireless signal transmitting module 24 can also be embodied as a micro-control unit (MCU), the present invention to this not Impose any restrictions.It is noted that this is burst, the course of work of unit 20 is by an at least programme-control, the wherein program storage In the memory of the micro-control unit (MCU).Specifically, the circuit diagram shown in Fig. 5 discloses the connected mode shown in Fig. 4 A wherein circuit diagram, the circuit diagram shown in Fig. 7 disclose a wherein circuit diagram for the connected mode shown in Fig. 6.The skill of this area Art personnel are it is understood that the connected mode of each module and each unit shown in Fig. 4 and Fig. 6 can pass through other a variety of circuits Implemented, the present invention is without limitation.It is noted that Fig. 4 shown in and Fig. 6 shown in each module each unit between The order of connection is only to describe the example of the present invention, such as in this preferred embodiment of the present invention, the electronic switch Module 21 is arranged at before the coding module 23, and in another embodiment of the present invention, the electronic switch module 21 can also It is arranged at after the coding module 23.That is, as long as the ultra-micro power consumption sender unit 100 can be enable to complete The reception of command information, processing and send work, and after corresponding wireless signal is sent, controlling switch 10 reset it is disconnected Before opening, circuit is set to enter power-down state, should so as to reduce the energy consumption of the power supply to the ultra-micro power consumption sender unit 100 The order of connection between each unit, module can carry out any adjustment as needed.

It is noted that when the connecting and disconnecting of the circuit, voltage pulsation and noise can be produced in circuit, in order to stablize the work Voltage in circuit, the type ultra micro function remote control of bursting further comprise at least one buffering electric capacity 30.Such as Fig. 5 and Fig. 7 institutes Show, in this preferred embodiment of the present invention, the buffering electric capacity 30 is arranged at the controlling switch 10 between unit 20 of bursting. It will be appreciated by those skilled in the art that the set location of the buffering electric capacity 30 is not limited by this preferred embodiment System, can be arranged as required to the other positions in circuit.

It is existing many ask to be present using photronic wireless signal transmitting device (for example, photocell remote control) Topic, such as, firstly, since remote control circuit power consumption is big, it is necessary to sufficiently large electric current be provided using the larger photocell of area, distant Control under frivolous, the attractive in appearance development trend of device, this can not only bring the problem that remote control designs, and can also influence remote control It is attractive in appearance；Secondly as the electric current that photocell provides is smaller, the farad capacitor trickles using photocell to Large Copacity more at present The mode of charging energy-storing is powered, and because the capacity of Farad capacitors is big, suitable electricity, and method is unable to reach in the short time Draw capacitor electrolyte to be present, understand extension over time and gradually volatilize, therefore the life-span of farad capacitor is about 3-5, such as The end-of-life of fruit farad capacitor, photocell just also terminate therewith without its charging of normal direction, the service life of remote control；Again, Existing remote control needs the elements such as the farad capacitor of photocell and vast capacity, therefore high expensive, but uses the longevity Life is relatively short, and cost performance is not high.

It is noted that because the power consumption of the ultra-micro power consumption sender unit 100 is extremely low, therefore it can be by photoelectricity Pond directly drives, so as to without using the Farad capacitors energy storage of the Large Copacity of volatile electrolyte, physically have longer Service life.Correspondingly, the ultra-micro power consumption sender unit 100 further comprises an at least energy-storage units 50, flat to store When the light energy battery output electric energy, used when being worked for the ultra-micro power consumption sender unit 100.As long as that is, In the case of having illumination, photocell can just charge into the energy-storage units 50, so as to which electrical power storage be got up, even if the ultra micro Power loss signal emitter 100 is in the case where no illumination or illumination are weaker, the ultra-micro power consumption sender unit 100 Can normally it be worked using the electric energy that the energy-storage units 50 store when flat.It is noted that due to solid capacitor Capacity Ratio farad capacitor it is much smaller, can rapidly be full of electric energy, so, the present invention this preferred embodiment in, should Energy-storage units 50 are embodied as a solid capacitor.It will be appreciated by those skilled in the art that the energy-storage units 50 can also be real Apply as other kinds of energy-storage travelling wave tube, the invention is not limited in this regard.

Further, since electric current caused by photocell is fluctuation, it is therefore desirable to which supply voltage is constant required for circuit Level.Therefore, when the ultra-micro power consumption sender unit 100 is driven by a photocell, ultra-micro power consumption signal transmitting is recklessly That sub paper further comprise a constant pressure unit 60 with the voltage constant of power supply in the level required for circuit.The present invention's In this preferred embodiment, the constant pressure unit 60 is a DC-DC circuit, and its voltage exported can be constant any in 1.2-5V Magnitude of voltage.

It is noted that because the power consumption of the ultra-micro power consumption sender unit 100 is extremely low, so it can be by with face The less photocell driving of product, this not only lowers the design difficulty of the ultra-micro power consumption sender unit 100, also enhances it It is attractive in appearance.

It will be appreciated by those skilled in the art that the positive and negative of the ultra-micro power consumption sender unit 100 can be each One photocell is set, and so, no matter how the ultra-micro power consumption sender unit 100 is placed, and can obtain illumination, so as to by light Electric energy can be converted into.In another preferred embodiment of the invention, the surrounding of the ultra-micro power consumption sender unit 100 may be used also To set the photocell, the present invention does not do any restrictions to the photronic set location.

It will be appreciated by those skilled in the art that when in the magnetic field that coil is in an alternation, can be in closure Induced current is produced in coil, for example the coil of a closed-loop path is set in around the conductor that electric current flows through, or one The coil of closed-loop path is placed in electromagnetic field of high frequency, and to receive frequency electromagnetic waves, or the coil of a closed-loop path is placed in wink Between in the magnetic field that is mutated, or the magnetic line of force is disturbed small electric energy not of uniform size can be produced in coil of closed-loop path etc.. Due to the ultra-micro power consumption sender unit 100 consume energy it is extremely low, therefore its can by one it is coil-induced caused by small electric pulse Driving is operated.

In addition, the ultra-micro power consumption sender unit can also be operated by an impulse type power drives.It is worth mentioning , because the small electric energy is so that existing for impulse form interval, its stability powered depends on the performance of electric power system And the distance of transmission.Therefore, when the small electric pulse is powered for the unit 20 of bursting, the unit 20 of bursting obtains electric energy immediately Start working, and (such as within 30ms) rapidly sends out corresponding wireless signal such as in 100ms within the extremely short time Send and finish.If the time of electric pulse power supply is longer, this bursts unit 20 after the transmitting work of wireless signal is completed, and stands I.e. automatically into power failure state so as to reduce the average power consumption of the ultra-micro power consumption wireless signal transmitting device 100, if the electric arteries and veins The power-on time of punching is shorter, can adjust the parameter of the unit of bursting, and such as the transmission of adjustment wireless signal transmitting module is wireless The length of signal, the emission rate of wireless signal transmitting module, transmission power, launch a wireless signal time etc. ginseng Number, so that this is burst, unit 20 completes the transmitting work of wireless signal before the electric pulse disappears.Its structural representation such as Fig. 9 institutes Show.It is noted that the electric pulse input inputs various small pulse electric energies, both can be continue for some time as Caused by 0.5ms-500ms or moment, the present invention is not intended to be limited in any in terms of this, and preferably geoelectric pulse maintains The existing time is between 0.5ms-30ms.

It is noted that it can also be sent accordingly according to the polarity of the electric pulse of input to trigger the unit 20 of bursting Wireless signal., such as, when input is positive pulse, the unit 20 of bursting triggers the coding module 23 and produces corresponding coding Information, and corresponding wireless signal is launched by the wireless signal transmitting module 24；And when input is negative pulse, this is burst Unit 20 triggers the coding module 23 and produces other corresponding coding informations, and is launched by the wireless signal transmitting module 24 Go out corresponding wireless signal.

It will be appreciated by those skilled in the art that in some applications, when inputting an electric pulse, you can triggering should Unit 20 of bursting sends preset wireless signal, such as in the product of some wireless doorbells, after connecting energization source, not pre- In the case of putting command information, so that it may complete the transmitting work of wireless signal.

It is noted that the ultra-micro power consumption sender unit 100 can apply to wireless switching field, Lighting control Field, smart home field, appliance remote control field, Mechanical course field, wireless doorbell, the light fixture of controlled in wireless, controlled in wireless Electrically driven curtain, air-conditioning, electric clothes airing machine, super bath, television set, the wireless remote control of the product such as sound equipment, electric car, motorcycle, vapour The remote-control key of car etc., and the field such as Wireless Keyboard, the present invention are without limitation.As long as that is, using this hair Bright disclosed wireless signal transmitting method and the wireless signal transmitting device produced, the others for belonging to the present invention are specific Embodiment.

The present invention's further discloses a kind of wireless signal transmitting method, and this method comprises the following steps：(a) power supply is connected And produce at least one preset command information；(b) electric energy is obtained and according to the command information, within the time no more than 100ms (being preferably 1ms) sends corresponding wireless signal at least once；(c) after the wireless signal is sent, the power supply disconnect it Before, triggers circuit enters power-down mode；Physics disconnect the power supply (d).

Specifically, the step (a) further comprises：An at least controlling switch is turned on, wherein the controlling switch connects institute Power supply is stated, and is simultaneously emitted by the command information.

The step (a) further comprises：The controlling switch 10 is touched to open including an at least trigger switch 11 and at least one instruction 12 are closed, wherein when triggering controlling switch switch 10, the trigger switch 11 and the command switch 12 turn on, wherein the trigger switch 11 connect the power supply 10, while the command switch 12 sends corresponding command information.

The step (a) further comprises：The 10 of short duration conducting of controlling switch, wherein ON time are 0.1S-10S.

The step (a) further comprises：The power supply is the photoelectricity source battery that can convert light energy into electric energy, the wherein light Power-supply battery is electrical power storage in the energy-storage units 50.

The step (a) further comprises：The power supply is a wireless charging power supply, wherein the wireless charging power supply is reception Conductor magneto-electric energy be converted into electric energy or be electric energy the energy conversion of the radio wave of reception.

The step (a) further comprises：The power supply is an at least magnetoelectric induction element, to provide an induction electric energy.Should Step (b) further comprises：An at least electronic switch module 21 is opened so that at least one unit 20 of bursting obtains electric energy, wherein institute Unit 20 of bursting is stated to receive the command information in the time no more than 100ms (being preferably 1ms) and launch phase at least once The wireless signal answered.

The step (b) further comprises：Within the time no more than 100ms (being preferably 1ms), the unit 20 of bursting is somebody's turn to do Coding module 23 receives the command information and sends out that corresponding coding information and the wireless signal transmitting module 24 receive should Coding information simultaneously launches corresponding wireless signal at least once.

The step (b) further comprises：The speed of the wireless signal transmitting module 24 transmitting wireless signal is 1Kbps- 2Mbps, preferably transmission power 0.1mW-50mW, 5mW, the time of wireless signal of transmitting is 0.2ms-30ms, transmitting The message length that once wireless signal is included is 1-48 byte, preferably 10 bytes, wherein wherein described wireless communication Number transmitter module is repeatable to send the wireless signal for including identical message, and the wherein wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.

The step (c) further comprises：The wireless signal be sent after, the controlling switch 10 reset disconnect before, The unit 20 of bursting controls the electronic switch module 21 to close, so that circuit enters power-down mode.

The step (c) further comprises：The control module 22 of bursting of the unit 20 of bursting controls the electronic switch module 21 close, so that circuit enters power-down mode.

The step (d) further comprises：The controlling switch 10, which resets, to be disconnected, so as to the physical break power supply.

The method that the ultra-micro power consumption sender unit 100 sends wireless signal further comprises a step (e)：The power supply After connection, the stabilization of buffering or constant pressure unit 60 by the buffering electric capacity 30, stablize the voltage of the circuit.

It is noted that the controlling switch 10 connects the trigger switch 11 and the command switch 12 again after resetting when, The above-mentioned course of work is executed once again.Wherein, the ultra-micro power consumption sender unit 100 sends the logic chart of wireless signal method As shown in Figure 10.

It will be appreciated by persons skilled in the art that (a) (b) (c) (d) (e) used in above-mentioned each step is not Represent the sequencing of each step in this method.

The instruction button is set to reset it will be appreciated by those skilled in the art that unclamping the instruction button in operator Before, the radiating circuit part for consuming energy big enters off-position, to reach the technique effect for saving electric energy, so as to extend making for power supply Use the life-span.

Specifically, when burst control module 22 and the common implementing of coding module 23 are a micro-control unit (MCU), The method that the ultra-micro power consumption sender unit 100 sends wireless signal comprises the following steps：(a) connect the power supply and produce extremely A few preset command information；(b) micro-control unit (MCU) obtains electric energy and starts to initialize；(c) micro-control unit (MCU) after the completion of initializing, receive the command information and send out corresponding coding information；(d) wireless signal transmitting module The corresponding coding information of the 24 reception micro-control unit (MCU) transmissions simultaneously wirelessly launches corresponding wireless signal； (e) after the wireless signal is sent, before power supply disconnection, the micro-control unit (MCU) controls the electronic switch module 21 close, and circuit is entered power-down mode；Physics disconnect the power supply (f).

Specifically, the step (a) further comprises：The controlling switch 10 is triggered, opens the trigger switch 11 and the instruction 12 connections are closed, wherein the trigger switch 11 connects the power supply 10, while the command switch 12 sends corresponding command information.

The step (a) further comprises：The of short duration conducting of the trigger switch 11 and the command switch 12 (for example ON time is 0.3S-10S)。

The step (a) further comprises that the power supply is a wireless charging power supply, wherein wireless charging power supply handle connects The conductor magneto-electric energy of receipts is converted into electric energy or is electric energy the energy conversion of the radio wave of reception.

Further, the step (c) and step (d) within the extremely short time (being less than 100ms, preferably 1ms) are completed.

The step (f) further comprises：The controlling switch 10, which resets, to be disconnected, so as to the physical break power supply.

The method that the ultra-micro power consumption sender unit 100 sends wireless signal further comprises a step (g)：The power supply After connection, by the buffering or at least stabilization of a constant pressure unit 60 of at least one buffering electric capacity 30, stablize the voltage of the circuit To the size required for circuit.

It will be appreciated by persons skilled in the art that (a) (b) (c) (d) (e) (f) used in above-mentioned each step (g) it is not offered as the sequencing of each step in this method.

It is noted that the controlling switch 10 connects the trigger switch 11 and the command switch 12 again after resetting when, The above-mentioned course of work is executed once again.

In this preferred embodiment of the present invention, in order to realize the continuous change of the ultra-micro power consumption sender unit 100 Amount control, the ultra-micro power consumption sender unit 100 further comprise an at least power supply unit 40, as shown in Figure 1.In the present invention This preferred embodiment in, the power supply unit 40 is embodied as an at least electric capacity, with the electronic switch module 21 closing after be The transmitting of second wireless singal provides electric energy.

Specifically, invention further discloses the side of second of the ultra-micro power consumption sender unit 100 transmitting wireless signal Method, the preferred embodiment of this method comprise the following steps：(a) connect the power supply and produce at least one the first preset instruction letter Breath；(b) electric energy is obtained, and receives first command information, wherein (the being preferably 1ms) transmitting within the time no more than 100ms Corresponding first wireless signal at least once；(c) after first wireless signal is sent, before power supply disconnection, circuit Into power-down state；(d) physics disconnects the power supply and sends out the second command information；(e) power supply unit 40 discharge with Electric energy is provided；(f) receive second command information and (being preferably 1ms) launches accordingly within the time no more than 100ms Second wireless singal；(g) after the second wireless singal is sent, whole circuits enter power-down mode.

Specifically, the step (a) further comprises：The controlling switch 10 is triggered, is referred to connecting the trigger switch 11 with this Order switch 12, the wherein trigger switch 11 connect the power supply 10 and are the charging of an at least power supply capacitor, the wherein command switch 12 produce corresponding first command information.

The step (a) further comprises that the power supply is a wireless charging power supply, wherein wireless charging power supply handle connects The conductor magneto-electric energy of receipts, which is converted into electric energy or the energy of radio wave is collected, is converted to electric energy.

The step (b) further comprises：First switch on the electronic switch module 21 (opening time is less than 100ms) so that The unit 20 of bursting obtains electric energy, and wherein the unit 20 of bursting receives first command information that the command switch 12 is sent, and (being preferably 1ms) launches the first wireless signal within the time no more than 100ms；

The step (b) further comprises：The coding module 23 of the unit 20 of bursting receives first command information and sent Go out corresponding first time coding information, and the wireless signal transmitting module 24 of the unit 20 of bursting encodes according to the first time Information launches corresponding first wireless signal at least once.

The step (c) further comprises：First wireless signal be sent after, the trigger switch 11 and the instruction open Before closing 12 mutual disconnections, the unit 20 of bursting controls the electronic switch module 21 to close, so that circuit enters power-down mode.

The step (d) further comprises：The controlling switch 10, which resets, disconnects the power supply and the second command information of generation.

The step (e) further comprises：The power supply unit 40 discharges, and wherein the unit 20 of bursting obtains electric energy, wherein The unit 20 of bursting controls second of opening of the electronic switch 31 (opening time is less than 100ms).

The step (e) further comprises：The control module 22 of bursting of the unit 20 of bursting controls the electronic switch 31 the Secondary opening.

The step (f) further comprises：The coding module 23 of the unit 20 of bursting receives what the controlling switch 10 was sent Second command information simultaneously sends out corresponding second coding information, and wherein the wireless signal transmitting module 24, which receives, is somebody's turn to do second Coding information simultaneously launches corresponding second wireless singal at least once.

The step (g) further comprises：The controlling switch 20, which resets, to be disconnected with the physical break power supply.

The method of the ultra-micro power consumption sender unit 100 transmitting wireless signal further comprises a step (h)：The power supply After connection, by the buffering or at least stabilization of a constant pressure unit 60 of at least one buffering electric capacity 30, stablize the voltage of the circuit To the size required for circuit.

It will be appreciated by persons skilled in the art that (a) (b) (b) (d) (e) (f) used in above-mentioned each step (g) (h) is not offered as the sequencing of each step in this method.

It is noted that the controlling switch 10 connects the trigger switch 11 and the command switch 12 again after resetting when, The above-mentioned course of work is executed once again, and wherein the ultra-micro power consumption sender unit 100 sends patrolling for the method for 2 wireless signals It is as shown in figure 11 to collect figure.

Invention further discloses the method for the third ultra-micro power consumption sender unit 100 transmitting wireless signal, the party The preferred embodiment of method comprises the following steps：(a ') switches on power and produces at least one the first preset command information；(b ') is obtained Electric energy and (being less than 100ms, preferably 1ms) launches at least once first within the extremely short time according to first command information Wireless signal；(the c ') power supply disconnect before, after first wireless signal is sent, the unit 20 of bursting controls the circuit In electric current be reduced to power save mode from working condition；(the d ') unit 20 of bursting recovers to working condition from power save mode； (the e ') power supply, which disconnects and triggered, sends the second command information；(f ') received second command information and within the extremely short time (being less than 100ms, preferably 1ms) launches corresponding second wireless singal at least once and the second wireless singal is sent Afterwards, whole circuits enter power-down mode.

The step (a ') further comprises：The controlling switch 10 is triggered, connects the trigger switch 11 and the command switch 12 Logical, wherein the trigger switch 11 connects the power supply 10, while the command switch 12 sends corresponding first command information.

The step (a ') further comprises：The of short duration conducting of the trigger switch 11 and the command switch 12 (such as ON time For 0.3S-10S).

The step (a ') further comprises：The power supply is the photoelectricity source battery that can convert light energy into electric energy, wherein should Photoelectricity source battery is electrical power storage in the energy-storage units 50.

The step (a ') further comprises：The electronic switch module 21 (opening time is less than 100ms) is opened so that should Unit 20 of bursting obtains electric energy, and wherein the unit 20 of bursting receives first command information that the command switch 12 is sent, in pole (being less than 100ms, preferably 1ms) launches first wireless signal at least once in the short time；

Step (b ') further comprises：The coding module 23 of the unit 20 of bursting receives first command information and sent Go out corresponding first time coding information, wherein wireless signal transmitting module 24 of the unit 20 of bursting encodes according to the first time Information launches corresponding first wireless signal

The step (c ') further comprises：The power supply 10 disconnect before, after first wireless signal is sent, this is sudden The control module 22 of bursting of bill member 20 controls the wireless signal transmitting module 24 to enter resting state, so that the work of circuit Make current reduction (for example the operating current of whole circuit being reduced to from the 20mA of emission state the 1mA of power save mode).

The step (d ') further comprises：The control of unit 20 of bursting turns on the electronic switch module 21, so that the electronics Switch module 21 is after the controlling switch 10 resets and disconnected still in conducting state；

The step (d ') further comprises：Wherein the controller 32 of bursting controls one first input/output (I/O, input/ Output) mouth output high level, to turn on the electronic switch module 21, make the electronic switch module 21 multiple in the controlling switch 10 Still in conducting state after the disconnection of position.

The step (e ') further comprises：The controlling switch 10, which resets, to be disconnected, and bursts control module 22 again to trigger this Start the coding module 23 and send corresponding second of coding information, wherein the wireless signal transmitting module 24, which receives, is somebody's turn to do second Coding information simultaneously launches the second wireless singal at least once.

The step (f ') further comprises：After wherein the second wireless singal is sent, the control module 32 of bursting is controlled Make the electronic switch module 21 thoroughly to be closed, so that circuit enters off-position.

The method that the ultra-micro power consumption sender unit 100 sends wireless signal further comprises a step (h)：The power supply After connection, by the buffering or at least stabilization of a constant pressure unit 60 of at least one buffering electric capacity 30, stablize the voltage of the circuit To the size required for circuit.

It will be appreciated by persons skilled in the art that (a) (b) (c) (d) (e) (f) used in above-mentioned each step (g) (h) is not offered as the sequencing of each step in this method.

It is noted that the controlling switch 10 connects the trigger switch 11 and the command switch 12 again after resetting when, The above-mentioned course of work is executed once again, wherein the logic of the method for the ultra-micro power consumption sender unit 100 transmitting wireless signal Figure is as shown in figure 12.

The ultra-micro power consumption signal transmitting of the transmitting condition of power consumption and the present invention of the existing remote control has been illustrated in Figure 13 The comparison diagram of the condition of power consumption of device 100.After the instruction button of existing remote control is pressed, the operating voltage of the remote control is 3V, emission current about 40mA, transmission power 10dB, the byte number of transmission is 25 bytes, launches the time of first encoding about 270ms, typically continuously repeat and send 3-5 encoded signal, the probability to be made a mistake in transmit process is edited and released to reduce.If The remote control sends 3 identicals coding, then takes and be：270ms*3=0.81s.Often by the electricity of a remote controller key consumption Amount is 3*40mA*0.81s=97.2mWs (the milliwatt second).Now, if be 190mAh with a nominal capacity, nominal voltage be 3V CR2032 types button cell power supply.Assuming that the own loss rate of 5 years batteries is 10%, then the capacity of the battery is also surplus 190mAh* (1-10%)=171mAh (MAH), that is,：171mAh*3600s*3V=1846800mWs (milliwatt second), that The number that the CR2032 button cells are available for remote controller key to use is：(1846800mWs/97.2mWs=19000 secondary).

The present invention this preferred embodiment in, when by give an order button after, the ultra-micro power consumption sender unit 100 Operating voltage be 3V, emission current 20mA, transmission power is arranged on 10dB, and the byte number of transmission is 25byte, the speed of transmission Rate is 200Kbps, then the time that transmitting first encoding is consumed is about 3ms (comprising including the hardware initialization time), is typically connected It is continuous to repeat to send 3-5 encoded signal, edit and release the probability to be made a mistake in transmit process to reduce.If send 3 identicals Coding, then 3ms*3=0.009s is taken, therefore be often 3*20mA*0.009s by the average power consumption of a remote controller key consumption =0.54mWs (milliwatt second).Now, if the CR2032 types that still identical nominal capacity is 190mAh, nominal voltage is 3V Button cell is powered, it is assumed that 10 years own loss rates of the battery are 50%, then the also surplus 190mAh*0.5=95mAh (millis of capacity Ampere-hour), that is,：3 volts=1026000mWs of 95mAh*3600 seconds *.The number that so battery is available for remote controller key to use is： 1026000/0.54=190 ten thousand times.

Therefore, the same data of same battery capacity, same transmission power, transmission, the present invention is in button operation The number used is more than 100 times of prior art, and power saving effect is especially good.

It is noted that presently disclosed wireless signal transmitting method can be applied not only to wireless switching neck Domain, Lighting control field, smart home field, appliance remote control field, Mechanical course field, wireless doorbell, the lamp of controlled in wireless The wireless remote control of the product such as tool, the electrically driven curtain of controlled in wireless, air-conditioning, electric clothes airing machine, super bath, television set, sound equipment, it is electronic The remote-control key of car, motorcycle, automobile etc., and the field such as Wireless Keyboard, the present invention are without limitation.That is, only If the wireless signal transmitting device produced using presently disclosed wireless signal transmitting method, belong to the present invention Other specific embodiments.

It is noted that invention further discloses a kind of controlled electrical equipment 200A, the controlled electrical equipment can be according at least one Control instruction completes preset work.As Figure 14 to Figure 15 show a preferred embodiment of the controlled electrical equipment.The controlled electricity Device includes an an at least execution unit 60A and at least terminal device 70A, and wherein execution unit 60A receives at least one control and referred to Make and control terminal device 70A to complete corresponding work according to the wireless signal.It is noted that the present invention this In preferred embodiment, execution unit 60A controls terminal device 70A to complete corresponding work by a control interface, its In, the system diagram of the controlled electrical equipment is as shown in 15.

It is noted that the controlled electrical equipment 200A may be embodied as smart home, doorbell, light fixture, electrically driven curtain, sky Tune, electric clothes airing machine, super bath, television set, sound equipment, electric car, motorcycle, automobile, and the field such as Wireless Keyboard, the present invention are right This is not intended to be limited in any.

Invention further discloses a kind of method that controlled electrical equipment 200A completes to work accordingly, this method includes following step Suddenly：(a) execution unit 60A for being constantly in holding state receives an at least control instruction；(b) execution unit 60A is exported Corresponding control information；Terminal device 70A receive the control information and make corresponding control action (c).

Specifically, the step (a) further comprises：Execution unit 60A receives control information twice, and to this twice The time interval of control information is judged, wherein exporting different control information according to different time intervals.

The step (b) further comprises that execution unit 60A gives this by an at least control interface control information production Terminal device 70A.

Wherein, the logic chart for the method that the controlled electrical equipment 200A completes to work accordingly according to an at least control instruction is as schemed Shown in 16.

As Figure 17 to 18 show a variant embodiment of the controlled electrical equipment 200A, the wherein controlled electrical equipment is embodied as collecting Into light source 300B.Integrated optical source 300B includes an an at least execution unit 60B and at least light source 70B, wherein in the execution list It is the input electric power of integrated optical source 300 between first 60B and light source.Execution unit 60B and light source 70B can be operatively attached to Together, (such as lighted, the brightness of light source changes with receiving preset wireless signal and completing corresponding work according to the wireless signal With the color change of light source etc.).That is worth mentioning makes, and the electric power of the input is divided into two-way, wherein the rectified decompression of electric power all the way Working powers of the execution unit 60B as execution unit 60B is supplied afterwards, so that execution unit 60B is in continual Stand-by operation state.Another way electric power is controlled by execution unit 60B, to drive light source 70B to light.Its system diagram is as schemed Shown in 18.

Invention further discloses the integrated optical source 300 to complete corresponding work (such as luminous, the brightness change of light source and light source Color change etc.) method, this method comprises the following steps：(a) electric power is inputted, the wherein electric power is divided into two-way, wherein First via electric power is powered for execution unit 60B, and the second road electric power is powered for light source 70B, and wherein execution unit 60B is obtained The power supply of first via electric power is in holding state；(b) execution unit 60B receives an at least control instruction and exported corresponding Control information；(c) light source 70 receives the control information and completes corresponding work.Its logic chart is as shown in figure 19.

Specifically, the step (a) further comprises：Execution unit 60B receives control information twice, and to this twice The time interval of control information is judged, wherein exporting different control information according to different time intervals.

The step (c) further comprises：Execution unit 60B receives the control information and output control level.

The step (c) further comprises：The power supply in execution unit 60B control light sources loop is so that light source 70B is completed Corresponding work.

It is noted that invention further discloses a remote control electrical appliance system, such as 20-23 figures to show the remote control electrical appliance system One preferred embodiment of system.As shown in figure 20, the remote control electrical appliance system includes an at least ultra-micro power consumption sender unit 100 At least one controlled electrical equipment 200A, the wherein controlled electrical equipment 200A receive being somebody's turn to do for the ultra-micro power consumption sender unit 100 transmitting Wireless signal simultaneously completes corresponding work according to the wireless signal.

Invention further discloses the method for work of the first remote control electrical appliance system, this method comprises the following steps：(a) connect Lead to the power supply and produce at least one preset command information；(b) electric energy is obtained and according to the command information, no more than 100ms Time in (be preferably 1ms) send corresponding wireless signal at least once；(c) after the wireless signal is sent, the electricity Before source disconnects, triggers circuit enters power-down mode；The wireless signal received and complete accordingly work, wherein thing (d) Reason disconnects the power supply.

The step (a) further comprises：The 10 of short duration conducting of controlling switch, wherein ON time are 0.1S-10.

The step (a) further comprises：The power supply is a wireless charging power supply, wherein wireless charging power supply handle connects The conductor magneto-electric energy of receipts is converted into electric energy or is electric energy the energy conversion of the radio wave of reception.

The step (b) further comprises：An at least electronic switch module 21 is opened so that at least one unit 20 of bursting obtains Electric energy, wherein the unit 20 of bursting receives the command information in the time no more than 100ms (being preferably 1ms) and launched Corresponding wireless signal at least once.

The step (d) further comprises：Execution unit 60A in holding state receives the wireless signal and exports phase The control information answered, wherein terminal device 70A receive the control information and make corresponding control action.

The step (d) further comprises that execution unit 60A send control information transmission by an at least control interface Give terminal device 70C.

The step (d) further comprises：Controlling switch 10A, which resets, to be disconnected, so as to the physical break power supply.

It is noted that the controlling switch 10 connects the trigger switch 11 and the command switch 12 again after resetting when, The above-mentioned course of work is executed once again.Wherein, the logic chart of remote control electrical appliance system transmission wireless signal method is as shown in figure 24.

Specifically, invention further discloses the method for second remote control electrical appliance system transmitting wireless signal, this method Preferred embodiment comprises the following steps：(a) connect the power supply and produce at least one the first preset command information；(b) electricity is obtained Can, and first command information is received, wherein (being preferably 1ms) transmitting is corresponding at least once within the time no more than 100ms The first wireless signal；(c) after first wireless signal is sent, before power supply disconnection, circuit enters power-down state； (d) physics disconnects the power supply and sends out the second command information；(e) power supply unit 40 discharges to provide electric energy；(f) connect Receive second command information and (being preferably 1ms) launches corresponding second wireless singal within the time no more than 100ms； (g) second wireless singal is received and judges the interval time of first wireless signal and the second wireless singal, and root Preset work is completed according to the interval time, wherein whole circuits enter power-down mode.

The step (f) further comprises：The coding module 23 of the unit 20 of bursting receives what the controlling switch 10 was sent Second command information simultaneously sends out corresponding second of coding information, wherein the wireless signal transmitting module 24 receive this second Secondary coding information simultaneously launches corresponding second wireless singal at least once.

The step (g) further comprises：Execution unit 60A in holding state receives first wireless signal and should Second wireless singal, and after judging the interval time of first wireless signal and second wireless singal, if wherein should The interval time of first wireless signal and the second wireless singal is less than or equal to time t (such as 0.5s), execution unit 60A Terminal device 70A is controlled to complete the work of single instruction, if the interval of first wireless signal and the second wireless singal Time is more than time t (such as 0.5s), and execution unit 60A controls the work of terminal device completion continual command.The step (g) Further comprise, execution unit 60A gives terminal device 70A by an at least control interface control information transmission.

The method that the ultra-micro power consumption sender unit 100 sends 2 wireless signals further comprises a step (h)：Should After power on, by the buffering or at least stabilization of a constant pressure unit 60 of at least one buffering electric capacity 30, stablize the circuit.

It is noted that the controlling switch 10 connects the trigger switch 11 and command switch 12C again after resetting when, The above-mentioned course of work is executed once again, and wherein the remote control electrical appliance system realizes logic chart such as Figure 25 of the method for stepless variable regulation It is shown.

Invention further discloses the method for the third remote control electrical appliance system transmitting wireless signal, this method is preferable to carry out Example comprises the following steps：：(a ') switches on power and produces at least one the first preset command information；(b ') obtains electric energy and basis First command information (being less than 100ms, preferably 1ms) within the extremely short time launches the first wireless signal at least once； (the c ') power supply disconnect before, after first wireless signal is sent, the unit 20 of bursting controls the electric current in the circuit Power save mode is reduced to from working condition；(the d ') unit 20 of bursting recovers to working condition from power save mode；(the e ') power supply Disconnect and trigger and send the second command information；(f ') receive second command information and within the extremely short time (be less than 100ms, Preferably 1ms) launch corresponding second wireless singal at least once；(g) receive the second wireless singal and judge this first Interval time of wireless signal and the second wireless singal, and preset work is completed according to the interval time, and this second After wireless signal is sent, whole circuits enter power-down mode.

Step (b ') further comprises：The coding module 23 of the unit 20 of bursting receives first command information and sent Go out corresponding first time coding information, wherein wireless signal transmitting module 24 of the unit 20 of bursting encodes according to the first time Information launches corresponding first wireless signal.

The step (b ') further comprises：The speed of the wireless signal transmitting module 24 transmitting wireless signal is 1Kbps- 2Mbps, preferably transmission power 0.1mW-50mW, 5mW, the time of wireless signal of transmitting is 0.2ms-30ms, transmitting The message length that once wireless signal is included is 1-48 byte, preferably 10 bytes, wherein wherein described wireless communication Number transmitter module is repeatable to send the wireless signal for including identical message, and the wherein wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.

The method that the ultra-micro power consumption sender unit 100 sends 2 wireless signals further comprises a step (h)：Should After power on, by the buffering or at least stabilization of a constant pressure unit 60 of at least one buffering electric capacity 30, stablize the circuit Size required for voltage to circuit.

It is noted that controlling switch 10C connects trigger switch 11C and command switch 12C again after resetting When, the above-mentioned course of work is executed once again, and wherein logic chart is as shown in figure 26.

It is noted that invention further discloses one to exempt from cloth control line source system, exempt from cloth as 27-30 figures show this One preferred embodiment of control line light-source system.As shown in figure 27, this, which exempts from cloth control line source system, includes an at least ultra micro Power loss signal emitter 100 and at least an integrated optical source 300B, the wherein integrated optical source 300B execution unit 60B are received The wireless signal of the ultra-micro power consumption sender unit 100 transmitting and according to the wireless signal complete corresponding work (as it is luminous, The brightness change of light source and the color change of light source etc.).It is noted that the electric power of the input is divided into two-way, wherein all the way Working powers of the execution unit 60B as execution unit 60B is supplied after the rectified decompression of electric power, so that the execution unit 60B is in continual stand-by operation state.Another way electric power is controlled by execution unit 60B, to drive light source 70B to send out Light.

The method of work that this exempts from cloth control line source system invention further discloses the first, the preferred embodiment of this method Comprise the following steps：(a) connect the power supply and produce at least one preset command information；(b) electric energy is obtained and according to the instruction Information, (being preferably 1ms) sends corresponding wireless signal at least once within the time no more than 100ms；(c) wireless signal After being sent, before power supply disconnection, triggers circuit enters power-down mode；The wireless signal received and completed (d) Corresponding work, and physics disconnects the power supply.

The step (b) further comprises：

The step (d) further comprises：Integrated optical source 300B execution unit 60B receives the wireless signal and passed through One control interface sends out corresponding control information and receives the control information and according to the control to light source 70B, light source 70B Information completes corresponding work.

The step (d) further comprises：An electric power is inputted, wherein the electric power is divided into two-way, and wherein first via electric power is to be somebody's turn to do Execution unit 60B is powered, and the second road electric power is powered for light source 70B, and wherein execution unit 60B obtains the confession of first via electric power Electricity is in holding state；

The method that the ultra-micro power consumption sender unit 100 sends wireless signal further comprises a step (e)：The power supply After connection, by the buffering or at least stabilization of a constant pressure unit 60 of at least one buffering electric capacity 30, stablize the voltage of the circuit To the size required for circuit.

It is noted that the controlling switch 10 connects the trigger switch 11 and the command switch 12 again after resetting when, The above-mentioned course of work is executed once again.Wherein, this exempts from the logic chart such as figure that cloth control line source system sends wireless signal method Shown in 31.

Specifically, invention further discloses second this exempt from the method for cloth control line source system transmitting wireless signal, should The preferred embodiment of method comprises the following steps：(a) connect the power supply and produce at least one the first preset command information；(b) Electric energy is obtained, and receives first command information, wherein (the being preferably 1ms) transmitting at least one within the time no more than 100ms Secondary corresponding first wireless signal；(c) after first wireless signal is sent, before power supply disconnection, circuit enters to fall Electricity condition；(d) physics disconnects the power supply and sends out the second command information；(e) power supply unit 40 discharges to provide electricity Energy；(f) receive second command information and (being preferably 1ms) launches corresponding second nothing within the time no more than 100ms Line signal；(g) when the second wireless singal is received and judges the interval of first wireless signal and the second wireless singal Between, and preset work is completed according to the interval time, wherein whole circuits enter power-down mode.

The step (g) further comprises：Execution unit 60B in holding state receives the wireless signal and exports phase The control information answered, wherein light source 70B receive the control information and make corresponding control action.

The step (g) further comprises：An electric power is inputted, wherein the electric power is divided into two-way, and wherein first via electric power is to be somebody's turn to do Execution unit 60B is powered, and the second road electric power is powered for light source 70B, and wherein execution unit 60B obtains the confession of first via electric power Electricity is in holding state；

The step (g) further comprises：Integrated optical source 300B execution unit 60B receives the wireless signal and passed through One control interface sends out corresponding control information and receives the control information and according to the control to light source 70B, light source 70B Information completes corresponding work.

The step (g) further comprises：Execution unit 60B in holding state receives first wireless signal and should Second wireless singal, and after judging the interval time of first wireless signal and second wireless singal, if wherein should The interval time of first wireless signal and the second wireless singal is less than or equal to time t (such as 0.5s), execution unit 60B Light source 70B is controlled to complete the work of single instruction, if the interval time of first wireless signal and the second wireless singal More than time t (such as 0.5s), execution unit 60B controls the work of light source 70B completion continual commands.The step (g) enters one Step includes：Controlling switch 10B, which resets, to be disconnected, so as to the physical break power supply.

The controlled electrical equipment 200 realizes that the method for stepless variable regulation further comprises a step (h)：After the power on, By the buffering or at least stabilization of a constant pressure unit 60 of at least one buffering electric capacity 30, stablize the voltage of the circuit to circuit institute The size needed.

It is noted that the controlling switch 10 connects the trigger switch 11 and the command switch 12 again after resetting when, The above-mentioned course of work is executed once again, and wherein this exempts from the logic chart that cloth control line source system realizes the method for stepless variable regulation As shown in figure 32.

Exempt from the method for cloth control line source system transmitting wireless signal invention further discloses the third this, this method it is excellent Embodiment is selected to comprise the following steps：(a ') switches on power and produces at least one the first preset command information；(b ') obtains electric energy And (being less than 100ms, preferably 1ms) launches the first wireless communication at least once within the extremely short time according to first command information Number；(the c ') power supply disconnect before, after first wireless signal is sent, the unit 20 of bursting controls the electricity in the circuit Stream is reduced to power save mode from working condition；(the d ') unit 20 of bursting recovers to working condition from power save mode；(the e ') electricity Source, which disconnects and triggered, sends the second command information；(f ') receives second command information and (is less than within the extremely short time 100ms, preferably 1ms) launch corresponding second wireless singal at least once；Receive the second wireless singal and sentence (g) Break first wireless signal and the interval time of the second wireless singal, and preset work is completed according to the interval time, and And after the second wireless singal is sent, whole circuits enter power-down mode.

Step (b ') further comprises：The coding module 23 of the unit 20 of bursting receives first command information and sent Go out corresponding first time coding information, wherein wireless signal transmitting module 24 of the unit 20 of bursting encodes according to the first time Information launches corresponding first wireless signal.The step (b) further comprises：The wireless signal transmitting module 24 is launched wirelessly The speed of signal is 1Kbps-2Mbps, preferably transmission power 0.1mW-50mW, 5mW, launches the time of a wireless signal For 0.2ms-30ms, the transmitting message length that once wireless signal is included is 1-48 byte, preferably 10 bytes, its In wherein described wireless signal transmitting module is repeatable sends the wireless signal for including identical message, the wherein wireless signal Transmitter module is worked between 10MHZ-50GHZ, and wherein the wireless signal transmitting module passes through single-frequency or frequency-hopping transmissions The wireless signal.

The step (d ') further comprises：The control of unit 20 of bursting turns on the electronic switch module 21, so that the electronics Switch module 21 is after the controlling switch 10 resets and disconnected still in conducting state.

The step (f ') further comprises：The wireless signal transmitting module 24 receives second of coding information and launched Second wireless singal.

The step (g) further comprises that execution unit 60B send control information transmission by an at least control interface Give light source 70B.

The step (g) further comprises：Execution unit 60B in holding state receives first wireless signal and should Second wireless singal, and after judging the interval time of first wireless signal and second wireless singal, if wherein should The interval time of first wireless signal and the second wireless singal is less than or equal to time t (such as 0.5s), execution unit 60B Light source 70B is controlled to complete the work of single instruction, if the interval time of first wireless signal and the second wireless singal More than time t (such as 0.5s), execution unit 60B controls the work of light source 70B completion continual commands..

This is exempted from cloth control line source system and realizes that the method for stepless variable regulation further comprises a step (h)：The power supply After connection, the stabilization of buffering or the constant pressure unit 60 by the buffering electric capacity 30, stablize the voltage of the circuit in the circuit Required size.

It is noted that the controlling switch 10 connects the trigger switch 11 and the command switch 12 again after resetting when, The above-mentioned course of work is executed once again, and its logic chart is as shown in figure 33.

It should be understood by those skilled in the art that the embodiments of the invention shown in foregoing description and accompanying drawing are only used as illustrating And it is not intended to limit the present invention.The purpose of the present invention completely and effectively realizes.The function and structural principle of the present invention exists Show and illustrate in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.

Claims

A 1. ultra-micro power consumption sender unit, it is characterised in that including：At least one switch on power after to produce at least one predetermined The controlling switch of command information and at least one is burst unit, wherein it is described burst unit and the controlling switch can place of working connect Together with complete the reception of command information, processing and send work, and after corresponding wireless signal is sent, it is described Before controlling switch resets disconnection, the unit of bursting enters power-down mode, to reduce the power consumption of power supply.
2. ultra-micro power consumption sender unit as claimed in claim 1, opened wherein the controlling switch includes at least one instruction Pass and an at least trigger switch, wherein when the controlling switch is connected, the trigger switch connects an at least power supply, while institute State command switch and produce the command information.
3. ultra-micro power consumption sender unit as claimed in claim 1, wherein the unit of bursting further comprises at least one Coding module and at least a wireless signal transmitting module, wherein the coding module and the wireless signal transmitting module can work Ground links together so that the coding module receives the command information that the controlling switch is sent and sent out corresponding Coding information, and the wireless signal transmitting module is received the coding information and is launched corresponding nothing in the form of wireless Line signal.
4. ultra-micro power consumption sender unit as claimed in claim 2, wherein the unit of bursting further comprises at least one Coding module and at least a wireless signal transmitting module, wherein the coding module and the wireless signal transmitting module can work Ground links together, so that the coding module receives the command information that the command switch is sent and sent out corresponding Coding information, and the wireless signal transmitting module is received the coding information and is launched corresponding nothing in the form of wireless Line signal.
5. ultra-micro power consumption sender unit as stated in claim 3, wherein wireless signal transmitting module transmitting is wireless The speed of signal is 1Kbps-2Mbps, transmission power 0.1mW-50mW, and the time of wireless signal of transmitting is 0.2ms- 30ms, the transmitting message length that once wireless signal is included is 1-48 byte.
6. the ultra-micro power consumption sender unit as shown in claim 4, wherein wireless signal transmitting module transmitting is wireless The speed of signal is 1Kbps-2Mbps, transmission power 0.1mW-50mW, and the time of wireless signal of transmitting is 0.2ms- 30ms, the transmitting message length that once wireless signal is included is 1-48 byte.
7. ultra-micro power consumption sender unit as claimed in claim 5, wherein the repeatable hair of the wireless signal transmitting module Send the wireless signal for including identical message.
8. ultra-micro power consumption sender unit as claimed in claim 6, wherein the repeatable hair of the wireless signal transmitting module Send the wireless signal for including identical message.
9. ultra-micro power consumption sender unit as claimed in claim 7, wherein the wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
10. ultra-micro power consumption sender unit as claimed in claim 8, wherein the wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
11. the ultra-micro power consumption sender unit as described in any in claim 1-10, wherein the unit of bursting is further Including an at least electronic switch module, wherein the electronic switch module is by opening and closing, to adjust the electricity of the circuit Source is supplied.
12. ultra-micro power consumption sender unit as claimed in claim 11, wherein the unit of bursting further comprises at least One bursts control module, wherein the control module of bursting controls the electronic switch module to switch on power and deenergization.
13. the ultra-micro power consumption sender unit as described in any in claim 12, wherein control module and the institute of bursting State coding module and be embodied as a micro-control unit, wherein the course of work of the unit of bursting is by an at least programme-control, wherein Described program is stored in the memory of the micro-control unit.
14. the ultra-micro power consumption sender unit as described in any in claim 12, wherein the control module of bursting, described Coding module and the wireless signal transmitting module are embodied as a micro-control unit, wherein the course of work of the unit of bursting by An at least programme-control, wherein described program are stored in the memory of the micro-control unit.
15. ultra-micro power consumption sender unit as claimed in claim 13, further comprise an at least power supply unit, wherein institute State power supply unit the electronic switch module closing after, there is provided an electric energy with the controlling switch reset disconnect when again Trigger the wireless signal transmitting module and send wireless signal at least once.
16. the ultra-micro power consumption sender unit as described in any in claim 14, further comprise that at least one power supply is single Member, wherein said supply unit are after electronic switch module closing, there is provided an electric energy is with controlling switch reset The wireless signal transmitting module is triggered during disconnection again and sends wireless signal at least once.
17. ultra-micro power consumption sender unit as claimed in claim 13, it is 0.9V- to further comprise an at least magnitude of voltage 12V micro-energy power supply is to provide electric energy.
18. ultra-micro power consumption sender unit as claimed in claim 14, it is 0.9V- to further comprise an at least magnitude of voltage 12V micro-energy power supply is to provide electric energy.
19. ultra-micro power consumption sender unit as claimed in claim 15, it is 0.9V- to further comprise an at least magnitude of voltage 12V micro-energy power supply is to provide electric energy.
20. ultra-micro power consumption sender unit as claimed in claim 16, it is 0.9V- to further comprise an at least magnitude of voltage 12V micro-energy power supply is to provide electric energy.
21. ultra-micro power consumption sender unit as claimed in claim 13, further comprise that at least one converts light energy into electricity Can light energy power supply to provide electric energy.
22. ultra-micro power consumption sender unit as claimed in claim 14, further comprise that at least one converts light energy into electricity Can light energy power supply to provide electric energy,.
23. ultra-micro power consumption sender unit as claimed in claim 15, further comprise that at least one converts light energy into electricity Can light energy power supply to provide electric energy.
24. ultra-micro power consumption sender unit as claimed in claim 16, further comprise that at least one converts light energy into electricity Can light energy power supply to provide electric energy,
25. ultra-micro power consumption sender unit as claimed in claim 13, further comprise an at least magnetoelectric induction element with One induction electric energy is provided.
26. ultra-micro power consumption sender unit as claimed in claim 14, further comprise an at least magnetoelectric induction element with One induction electric energy is provided.
27. ultra-micro power consumption sender unit as claimed in claim 15, further comprise an at least magnetoelectric induction element with One induction electric energy is provided.
28. ultra-micro power consumption sender unit as claimed in claim 16, further comprise an at least magnetoelectric induction element with One induction electric energy is provided.
29. ultra-micro power consumption sender unit as claimed in claim 13, further comprise a wireless charging power supply, wherein institute Wireless charging power supply is stated the conductor magneto-electric energy of reception is converted into electric energy or to be electric energy the energy conversion of the radio wave of reception.
30. ultra-micro power consumption sender unit as claimed in claim 14, further comprise a wireless charging power supply, wherein institute Wireless charging power supply is stated the conductor magneto-electric energy of reception is converted into electric energy or to be electric energy the energy conversion of the radio wave of reception.
31. ultra-micro power consumption sender unit as claimed in claim 15, further comprise a wireless charging power supply, wherein institute Wireless charging power supply is stated the conductor magneto-electric energy of reception is converted into electric energy or to be electric energy the energy conversion of the radio wave of reception.
32. ultra-micro power consumption sender unit as claimed in claim 16, further comprise a wireless charging power supply, wherein institute Wireless charging power supply is stated the conductor magneto-electric energy of reception is converted into electric energy or to be electric energy the energy conversion of the radio wave of reception.
33. ultra-micro power consumption sender unit as claimed in claim 21, wherein further comprise an at least constant pressure unit with The size that voltage in stabilizing circuit needs in circuit.
34. ultra-micro power consumption sender unit as claimed in claim 22, wherein further comprise an at least constant pressure unit with The size that voltage in stabilizing circuit needs in circuit.
35. ultra-micro power consumption sender unit as claimed in claim 23, wherein further comprise an at least constant pressure unit with The size that voltage in stabilizing circuit needs in circuit.
36. ultra-micro power consumption sender unit as claimed in claim 24, wherein further comprise an at least constant pressure unit with The size that voltage in stabilizing circuit needs in circuit.
A 37. wireless signal transmitting method, it is characterised in that comprise the following steps：

(a) switch on power and produce at least one preset command information；

(b) at least one unit of bursting obtains electric energy, and the command information is received, wherein being sent out within the time no more than 100mS Send corresponding wireless signal at least once；

(c) after the wireless signal is sent, before power supply disconnection, the unit triggers circuit of bursting enters power down Pattern；With

(d) physics disconnects the power supply.
38. wireless signal transmitting method as claimed in claim 37, wherein the step (a) further comprises：Conducting is at least One controlling switch, wherein the controlling switch connects the power supply, and it is simultaneously emitted by the command information.
39. wireless signal transmitting method as claimed in claim 38, wherein the step (a) further comprises：The control Of short duration conducting is switched, wherein ON time is 0.1S-10S.
40. wireless signal transmitting method as claimed in claim 39, wherein the step (a) further comprises：The power supply The photoelectricity source battery that can convert light energy into electric energy, wherein the photoelectric source battery electrical power storage in an at least energy storage list In member.
41. wireless signal transmitting method as claimed in claim 39, wherein the step (a) further comprises：The power supply It is a wireless charging power supply, wherein the conductor magneto-electric energy of reception is converted into electric energy or the nothing reception by the wireless charging power supply The energy conversion of line electric wave is electric energy.
42. ultra-micro power consumption sender unit as claimed in claim 39, wherein the step (a) further comprises：It is described Power supply is an at least magnetoelectric induction element, to provide an induction electric energy.
43. the wireless signal transmitting method as described in any in claim 37-39, wherein the step (b) further comprises： An at least electronic switch module is opened so that the unit of bursting obtains electric energy, wherein described within the time no more than 100mS At least coding module of unit of bursting receives the command information and sends out corresponding coding information and the list of bursting An at least wireless signal transmitting module for member receives the coding information and launches corresponding wireless signal at least once.
44. wireless signal transmitting method as claimed in claim 40, wherein the step (b) further comprises：Open at least One electronic switch module is so that the unit of bursting obtains electric energy, wherein the unit of bursting within the time no more than 100mS An at least coding module receive the command information and send out corresponding coding information and described burst unit at least One wireless signal transmitting module receives the coding information and launches corresponding wireless signal at least once.
45. wireless signal transmitting method as claimed in claim 41, wherein the step (b) further comprises：Open at least One electronic switch module is so that the unit of bursting obtains electric energy, wherein the unit of bursting within the time no more than 100mS An at least coding module receive the command information and send out corresponding coding information and described burst unit at least One wireless signal transmitting module receives the coding information and launches corresponding wireless signal at least once.
46. wireless signal transmitting method as claimed in claim 43, wherein the wireless signal transmitting module launches wireless communication Number speed be 1Kbps-2Mbps, transmission power 0.1mW-50mW, the time of wireless signal of transmitting is 0.2ms- 30ms, the transmitting message length that once wireless signal is included is 1-48 byte.
47. wireless signal transmitting method as claimed in claim 44, wherein the wireless signal transmitting module launches wireless communication Number speed be 1Kbps-2Mbps, transmission power 0.1mW-50mW, the time of wireless signal of transmitting is 0.2ms- 30ms, the transmitting message length that once wireless signal is included is 1-48 byte..
48. wireless signal transmitting method as claimed in claim 45, wherein the wireless signal transmitting module launches wireless communication Number speed be 1Kbps-2Mbps, transmission power 0.1mW-50mW, the time of wireless signal of transmitting is 0.2ms- 30ms, the transmitting message length that once wireless signal is included is 1-48 byte..
49. wireless signal transmitting method as claimed in claim 46, sent wherein the wireless signal transmitting module is repeatable The wireless signal comprising identical message.
50. wireless signal transmitting method as claimed in claim 47, sent wherein the wireless signal transmitting module is repeatable The wireless signal comprising identical message
51. wireless signal transmitting method as claimed in claim 48, wherein the wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
52. wireless signal transmitting method as claimed in claim 49, wherein the wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
53. wireless signal transmitting method as claimed in claim 50, wherein the wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
54. wireless signal transmitting method as claimed in claim 51, wherein the step (c) further comprises：It is described wireless Signal be sent after, the controlling switch reset before disconnecting, at least the one of the unit of bursting bursts control module control Make an at least electronic switch module to close, so that circuit enters power-down mode.
55. wireless signal transmitting method as claimed in claim 52, wherein the step (c) further comprises：It is described wireless Signal be sent after, the controlling switch reset before disconnecting, at least the one of the unit of bursting bursts control module control Make an at least electronic switch module to close, so that circuit enters power-down mode.
56. wireless signal transmitting method as claimed in claim 53, wherein the step (c) further comprises：It is described wireless Signal be sent after, the controlling switch reset before disconnecting, at least the one of the unit of bursting bursts control module control Make an at least electronic switch module to close, so that circuit enters power-down mode.
57. the wireless signal transmitting method as described in any in claim 37-42, wherein the step (d) further comprises： The wireless signal is received and completes to work accordingly.
58. the wireless signal transmitting method as described in claim 51, wherein the step (d) further comprises：The nothing Line signal is received and completes to work accordingly.
59. the wireless signal transmitting method as described in any in claim 52, wherein the step (d) further comprises：Institute Wireless signal is stated to be received and complete to work accordingly.
60. wireless signal transmitting method as claimed in claim 53, wherein the step (d) further comprises：It is described wireless Signal is received and completes to work accordingly.
61. wireless signal transmitting method as claimed in claim 54, wherein the step (d) further comprises：It is described wireless Signal is received and completes to work accordingly.
62. wireless signal transmitting method as claimed in claim 55, wherein the step (d) further comprises：It is described wireless Signal is received and completes to work accordingly.
63. wireless signal transmitting method as claimed in claim 56, wherein the step (d) further comprises：It is described wireless Signal is received and completes to work accordingly.
64. wireless signal transmitting method as claimed in claim 57, wherein the step (d) further comprises：In standby An at least execution unit for state receives the wireless signal, and exports corresponding control information, a wherein at least terminal device Receive the control information and make corresponding control action.
65. wireless signal transmitting method as claimed in claim 58, wherein the step (d) further comprises：In standby An at least execution unit for state receives the wireless signal, and exports corresponding control information, a wherein at least terminal device Receive the control information and make corresponding control action.
66. wireless signal transmitting method as claimed in claim 59, wherein the step (d) further comprises：In standby An at least execution unit for state receives the wireless signal, and exports corresponding control information, a wherein at least terminal device Receive the control information and make corresponding control action.
67. wireless signal transmitting method as claimed in claim 60, wherein the step (d) further comprises：In standby An at least execution unit for state receives the wireless signal, and exports corresponding control information, a wherein at least terminal device Receive the control information and make corresponding control action.
68. wireless signal transmitting method as claimed in claim 61, wherein the step (d) further comprises：In standby An at least execution unit for state receives the wireless signal, and exports corresponding control information, a wherein at least terminal device Receive the control information and make corresponding control action.
69. wireless signal transmitting method as claimed in claim 62, wherein the step (d) further comprises：In standby An at least execution unit for state receives the wireless signal, and exports corresponding control information, a wherein at least terminal device Receive the control information and make corresponding control action.
70. the wireless signal transmitting method as described in claim 63, wherein the step (d) further comprises：In standby An at least execution unit for state receives the wireless signal, and exports corresponding control information, a wherein at least terminal device Receive the control information and make corresponding control action.
71. wireless signal transmitting method as claimed in claim 57, wherein the step (d) further comprises：The electricity of input one Power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein the execution unit Holding state is in after obtaining power supply, wherein the execution unit receives the wireless signal and exports corresponding control letter Breath, wherein the light source receives the control information and completes corresponding work.
72. wireless signal transmitting method as claimed in claim 58, wherein the step (d) further comprises：The electricity of input one Power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein the execution unit Holding state is in after obtaining power supply, wherein the execution unit receives the wireless signal and exports corresponding control letter Breath, wherein the light source receives the control information and completes corresponding work.
73. wireless signal transmitting method as claimed in claim 59, wherein the step (d) further comprises：The electricity of input one Power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein the execution unit Holding state is in after obtaining power supply, wherein the execution unit receives the wireless signal and exports corresponding control letter Breath, wherein the light source receives the control information and completes corresponding work.
74. wireless signal transmitting method as claimed in claim 60, wherein the step (d) further comprises：The electricity of input one Power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein the execution unit Holding state is in after obtaining power supply, wherein the execution unit receives the wireless signal and exports corresponding control letter Breath, wherein the light source receives the control information and completes corresponding work.
75. wireless signal transmitting method as claimed in claim 61, wherein the step (d) further comprises：The electricity of input one Power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein the execution unit Holding state is in after obtaining power supply, wherein the execution unit receives the wireless signal and exports corresponding control letter Breath, wherein the light source receives the control information and completes corresponding work.
76. wireless signal transmitting method as claimed in claim 62, wherein the step (d) further comprises：The electricity of input one Power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein the execution unit Holding state is in after obtaining power supply, wherein the execution unit receives the wireless signal and exports corresponding control letter Breath, wherein the light source receives the control information and completes corresponding work.
77. the wireless signal transmitting method as described in claim 63, wherein the step (d) further comprises：The electricity of input one Power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein the execution unit Holding state is in after obtaining power supply, wherein the execution unit receives the wireless signal and exports corresponding control letter Breath, wherein the light source receives the control information and completes corresponding work.
78. the wireless signal transmitting method as described in claim 71, wherein the execution unit is by controlling the light source to return The power supply on road controls the light source to complete corresponding work.
79. the wireless signal transmitting method as described in any in claim 72-77, wherein the execution unit is by controlling The power supply in light source loop is stated to control the light source to complete corresponding work.
80. wireless signal transmitting method as claimed in claim 56, wherein further comprising a step (e)：The power supply connects After logical, stablize the voltage of the circuit by an at least constant pressure unit.
81. wireless signal transmitting method as claimed in claim 56, wherein being sent out by the form of frequency electromagnetic waves or light wave Penetrate the wireless signal.
82. the wireless signal transmitting method as described in claim 70, wherein being sent out by the form of frequency electromagnetic waves or light wave Penetrate the wireless signal.
83. the wireless signal transmitting method as described in claim 79, wherein being sent out by the form of frequency electromagnetic waves or light wave Penetrate the wireless signal.
A 84. wireless signal transmitting method, it is characterised in that comprise the following steps：

(a) switch on power and produce at least one the first preset command information；

(b) at least one burst unit obtain electric energy, wherein receiving first command information and within the time no more than 100mS Launch corresponding first wireless signal at least once；

(c) after first wireless signal transmission finishes, before power supply disconnection, residing unit triggers circuit entrance of bursting Power-down state；

(d) the physics disconnection power supply concurrently sends out the second command information at least once；

(e) an at least power supply unit discharges to provide electric energy；With

(f) unit of bursting receives second command information and launches corresponding second wireless singal at least once, wherein Whole circuits enter power-down mode.
85. the wireless signal transmitting method as described in claim 72, wherein the step (a) further comprises：Conducting is at least One controlling switch, wherein the controlling switch connects the power supply, and the command information is sent out simultaneously.
86. the wireless signal transmitting method as described in claim 73, wherein the step (a) further comprises：The control Of short duration conducting is switched, wherein ON time is 0.1S-10S.
87. the wireless signal transmitting method as described in claim 74, wherein the step (a) further comprises：The power supply The photoelectricity source battery of electric energy can be converted light energy into, wherein the photoelectric source battery electrical power storage in an at least energy-storage units In.
88. the wireless signal transmitting method as described in claim 74, wherein the step (a) further comprises：The power supply It is a wireless charging power supply, wherein the conductor magneto-electric energy of reception is converted into electric energy or radio wave by the wireless charging power supply Energy collect be converted to electric energy.
89. the wireless signal transmitting method as described in claim 74, wherein the step (a) further comprises that the power supply is One magnetoelectric induction element, the magnetic induction part provide an induction electric energy.
90. the wireless signal transmitting method as described in any in claim 84-86, wherein the step (b) further comprises： An at least electronic switch module is first switched on so that the unit of bursting obtains electric energy, wherein in the time no more than 100mS Interior, at least coding module of the unit of bursting receives the command information and sends out corresponding coding information and described At least wireless signal transmitting module of unit of bursting receives the coding information and launches corresponding first wireless signal.
91. the wireless signal transmitting method as described in claim 87, wherein the step (b) further comprises：Beat for the first time An at least electronic switch module is opened so that the unit of bursting obtains electric energy, it is described sudden wherein within the time no more than 100mS An at least coding module for bill member receives the command information and sends out corresponding coding information and the unit of bursting An at least wireless signal transmitting module receive the coding information and launch corresponding first wireless signal.
92. the wireless signal transmitting method as described in any in claim 88 or 89, wherein the step (b) is further wrapped Include：First switch on an at least electronic switch module so that it is described burst unit obtain electric energy, wherein no more than 100mS when In, an at least coding module for the unit of bursting receives the command information and sends out corresponding coding information and institute At least wireless signal transmitting module for stating unit of bursting receives the coding information and launches corresponding first wireless signal.
93. the wireless signal transmitting method as shown in claim 90, wherein the wireless signal transmitting module launches wireless communication Number speed be 1Kbps-2Mbps, transmission power 0.1mW-50mW, the time of wireless signal of transmitting is 0.2ms- 30ms, the transmitting message length that once wireless signal is included is 1-48 byte..
94. the wireless signal transmitting method as shown in claim 91, wherein the wireless signal transmitting module launches wireless communication Number speed be 1Kbps-2Mbps, transmission power 0.1mW-50mW, the time of wireless signal of transmitting is 0.2ms- 30ms, the transmitting message length that once wireless signal is included is 1-48 byte..
95. the wireless signal transmitting method as shown in claim 92, wherein the wireless signal transmitting module launches wireless communication Number speed be 1Kbps-2Mbps, transmission power 0.1mW-50mW, the time of wireless signal of transmitting is 0.2ms- 30ms, the transmitting message length that once wireless signal is included is 1-48 byte..
96. repeatable send of the wherein described wireless signal transmitting module of wireless signal transmitting method as shown in claim 93 is wrapped The wireless signal containing identical message.
97. repeatable send of the wherein described wireless signal transmitting module of wireless signal transmitting method as shown in claim 94 is wrapped The wireless signal containing identical message.
98. repeatable send of the wherein described wireless signal transmitting module of wireless signal transmitting method as shown in claim 95 is wrapped The wireless signal containing identical message.
99. the wherein described wireless signal transmitting module of wireless signal transmitting method as shown in claim 96 works in 10MHZ- Between 50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
100. the wherein described wireless signal transmitting module of wireless signal transmitting method as shown in claim 97 works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
101. the wherein described wireless signal transmitting module of wireless signal transmitting method as shown in claim 98 works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
102. the wireless signal transmitting method as described in claim 99, wherein the step (c) further comprises：It is described wireless Signal be sent after, the controlling switch reset before disconnecting, at least the one of the unit of bursting bursts control module control Make the electronic switch module to close, so that circuit enters power-down mode.
103. the wireless signal transmitting method as described in claim 100, wherein the step (c) further comprises：The nothing Line signal be sent after, the controlling switch reset before disconnecting, the control module control of bursting of the unit of bursting Make the electronic switch module to close, so that circuit enters power-down mode.
104. the wireless signal transmitting method as described in claim 101, wherein the step (c) further comprises：The nothing Line signal be sent after, the controlling switch reset before disconnecting, the control module control of bursting of the unit of bursting Make the electronic switch module to close, so that circuit enters power-down mode.
105. the wireless signal transmitting method as described in claim 102, wherein the step (e) further comprises：At least one Power supply unit discharges, wherein the unit of bursting obtains the control module control of bursting of the wherein described unit of bursting of electric energy again Make second of opening of the electronic switch module.
106. the wireless signal transmitting method as described in claim 103, wherein the step (e) further comprises：At least one Power supply unit discharges, wherein the unit of bursting obtains electric energy again, wherein the control module of bursting of the unit of bursting Control second of opening of the electronic switch module.
107. the wireless signal transmitting method as described in claim 104, wherein the step (e) further comprises：At least one Power supply unit discharges, wherein the unit of bursting obtains electric energy again, wherein the control module of bursting of the unit of bursting Control second of opening of the electronic switch module.
108. the wireless signal transmitting method as described in claim 105, wherein the step (f) further comprises：The volume Code module receives second command information and sends out corresponding second coding information, wherein the wireless signal transmitting module Receive second coding information and launch corresponding second wireless singal.
109. the wireless signal transmitting method as described in claim 106, wherein the step (f) further comprises：The volume Code module receives second command information and sends out corresponding second coding information, wherein the wireless signal transmitting module Receive second coding information and launch corresponding second wireless singal.
110. the wireless signal transmitting method as described in claim 107, wherein the step (f) further comprises：The volume Code module receives second command information and sends out corresponding second coding information, wherein the wireless signal transmitting module Receive second coding information and launch corresponding second wireless singal.
111. the wireless signal transmitting method as described in claim 108, wherein the step (f) further comprises：In treating An at least execution unit for machine state receives first wireless signal and the second wireless singal, wherein the execution unit Time interval between first wireless signal and second wireless singal is judged, wherein according to different time intervals Different control information is exported, a wherein at least terminal device receives the control information and makes corresponding control action.
112. the wireless signal transmitting method as described in claim 109, wherein the step (f) further comprises：In treating An at least execution unit for machine state receives first wireless signal and the second wireless singal, wherein the execution unit Time interval between first wireless signal and second wireless singal is judged, wherein according to different time intervals Different control information is exported, a wherein at least terminal device receives the control information and makes corresponding control action.
113. the wireless signal transmitting method as described in claim 110, wherein the step (f) further comprises：In treating An at least execution unit for machine state receives first wireless signal and the second wireless singal, wherein the execution unit Time interval between first wireless signal and second wireless singal is judged, wherein according to different time intervals Different control information is exported, a wherein at least terminal device receives the control information and makes corresponding control action.
114. the wireless signal transmitting method as described in claim 108, wherein the step (f) further comprises：Input one Electric power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein described perform list Member is in holding state after obtaining power supply, wherein the execution unit receives first wireless signal and second nothing Line signal, wherein the execution unit is sentenced to the time interval between first wireless signal and second wireless singal It is disconnected, wherein different control information is exported according to different time intervals, wherein the terminal device receives the control information And make corresponding control action.
115. the wireless signal transmitting method as described in claim 109, wherein the step (f) further comprises：Input one Electric power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein described perform list Member is in holding state after obtaining power supply, wherein the execution unit receives first wireless signal and second nothing Line signal, wherein the execution unit is sentenced to the time interval between first wireless signal and second wireless singal It is disconnected, wherein different control information is exported according to different time intervals, wherein the terminal device receives the control information And make corresponding control action.
116. the wireless signal transmitting method as described in claim 110, wherein the step (f) further comprises：Input one Electric power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein described perform list Member is in holding state after obtaining power supply, wherein the execution unit receives first wireless signal and second nothing Line signal, wherein the execution unit is sentenced to the time interval between first wireless signal and second wireless singal It is disconnected, wherein different control information is exported according to different time intervals, wherein the terminal device receives the control information And make corresponding control action.
117. the wireless signal transmitting method as described in claim 114, wherein the execution unit is by controlling the light source The power supply in loop controls the light source to complete corresponding work.
118. the wireless signal transmitting method as described in claim 115, wherein the execution unit is by controlling the light source The power supply in loop controls the light source to complete corresponding work.
119. the wireless signal transmitting method as described in claim 116, wherein the execution unit is by controlling the light source The power supply in loop controls the light source to complete corresponding work.
120. the wireless signal transmitting method as described in claim 110, wherein further comprising a step (g)：The power supply After connection, stablize the voltage of the circuit by an at least constant pressure unit.
121. the wireless signal transmitting method as described in claim 113, wherein further comprising a step (g)：The power supply After connection, stablize the voltage of the circuit by an at least constant pressure unit.
122. the wireless signal transmitting method as described in claim 119, wherein further comprising a step (g)：The power supply After connection, stablize the voltage of the circuit by an at least constant pressure unit.
123. the wireless signal transmitting method as described in claim 120, wherein the form by frequency electromagnetic waves or light wave Launch first wireless signal and the second wireless singal.
124. the wireless signal transmitting method as described in claim 121, wherein the form by frequency electromagnetic waves or light wave Launch first wireless signal and the second wireless singal.
125. the wireless signal transmitting method as described in claim 122, wherein the form by frequency electromagnetic waves or light wave Launch first wireless signal and the second wireless singal.
A 126. wireless signal transmitting method, it is characterised in that comprise the following steps：

(a) an at least controlling switch is connected, at least one the first preset command information is produced to switch on power；

(b) unit of bursting obtains electric energy, and receives first command information, wherein within the time no more than 100mS Launch corresponding first wireless signal at least once；

(c) before the controlling switch disconnects, after first wireless signal is sent, the unit of bursting enters energy-conservation State；

(d) unit of bursting recovers to working condition from power save mode；

(e) controlling switch, which disconnects, concurrently sends out at least one second command information；With

(f) receive second command information and launch corresponding second wireless singal at least once, wherein whole circuits enter Power-down mode.
127. the wireless signal transmitting method as described in claim 126, opened wherein the controlling switch includes at least one instruction Pass and an at least trigger switch, wherein when the controlling switch is closed, the trigger switch connects the power supply, while described Command switch produces the command information.
128. the wireless signal transmitting method as described in claim 126, wherein the step (a) further comprises：The control System switchs of short duration conducting, and wherein ON time is 0.3S-10S.
129. the wireless signal transmitting method as described in claim 128, wherein the step (a) further comprises：The electricity Source is the photoelectricity source battery that can convert light energy into electric energy, wherein the photoelectric source battery electrical power storage in an at least energy storage In unit.
130. the wireless signal transmitting method as described in claim 128, wherein the step (a) further comprises：The electricity Source is a wireless charging power supply, wherein the conductor magneto-electric energy of reception is converted into electric energy or reception by the wireless charging power supply The energy conversion of radio wave is electric energy.
131. the wireless signal transmitting method as described in claim 128, wherein the step (a) further comprises：The electricity Source is a magnetoelectric induction element, to provide an induction electric energy.
132. the wireless signal transmitting method as described in any in claim 126-128, wherein the step (b) is further wrapped Include：An at least electronic switch module is opened so that the unit of bursting obtains electric energy, wherein the institute within the time no more than 100mS At least coding module for stating unit of bursting receives the command information and sends out corresponding coding information and described burst An at least wireless signal transmitting module for unit receives the coding information and launches corresponding first wireless signal at least once.
133. the wireless signal transmitting method as described in claim 129, wherein the step (b) further comprises：Open extremely A few electronic switch module is so that at least one unit of bursting obtains electric energy, wherein described within the time no more than 100mS burst At least coding module of unit receives the command information and sends out corresponding coding information and the unit of bursting An at least wireless signal transmitting module receives the coding information and launches corresponding first wireless signal at least once.
134. the wireless signal transmitting method as described in any in claim 130 and 131, wherein the step (b) is further Including：Open an at least electronic switch module so that at least one burst unit obtain electric energy, wherein in the time no more than 100mS An at least coding module for the interior unit of bursting receives the command information and sends out corresponding coding information and described At least wireless signal transmitting module of unit of bursting receives the coding information and launched corresponding first wireless at least once Signal.
135. the ultra-micro power consumption sender unit as shown in claim 132, wherein the wireless signal transmitting module is launched The speed of wireless signal is 1Kbps-2Mbps, transmission power 0.1mW-50mW, and the time of wireless signal of transmitting is 0.2ms-30ms, the transmitting message length that once wireless signal is included is 1-48 byte..
136. the ultra-micro power consumption sender unit as shown in claim 133, wherein the wireless signal transmitting module is launched The speed of wireless signal is 1Kbps-2Mbps, transmission power 0.1mW-50mW, and the time of wireless signal of transmitting is 0.2ms-30ms, the transmitting message length that once wireless signal is included is 1-48 byte..
137. the ultra-micro power consumption sender unit as shown in claim 134, wherein the wireless signal transmitting module is launched The speed of wireless signal is 1Kbps-2Mbps, transmission power 0.1mW-50mW, and the time of wireless signal of transmitting is 0.2ms-30ms, the transmitting message length that once wireless signal is included is 1-48 byte.
138. the wireless signal transmitting method as described in claim 135, wherein the repeatable hair of the wireless signal transmitting module Send the wireless signal for including identical message.
139. the wireless signal transmitting method as described in claim 136, wherein the repeatable hair of the wireless signal transmitting module Send the wireless signal for including identical message.
140. the wireless signal transmitting method as described in claim 137, wherein the repeatable hair of the wireless signal transmitting module Send the wireless signal for including identical message.
141. wireless signal transmitting method as described in claim 138, wherein the wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
142. wireless signal transmitting method as described in claim 139, wherein the wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
143. wireless signal transmitting method as described in claim 140, wherein the wireless signal transmitting module works in Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless signal described in single-frequency or frequency-hopping transmissions.
144. wireless signal transmitting method as described in claim 141, wherein the step (e) further comprises：The control System switch, which resets, to be disconnected and sends to few one second command information, and the coding is again started up with control module of being burst described in triggering Module sends corresponding second coding information, wherein the wireless signal transmitting module receives second coding information and launched Corresponding second wireless singal at least once.
145. wireless signal transmitting method as described in claim 142, wherein the step (e) further comprises：The control System switch, which resets, to be disconnected and sends to few one second command information, and the coding is again started up with control module of being burst described in triggering Module sends corresponding second coding information, wherein the wireless signal transmitting module receives second coding information and launched Corresponding second wireless singal at least once.
146. wireless signal transmitting method as described in claim 143, wherein the step (e) further comprises：The control System switch, which resets, to be disconnected and sends to few one second command information, and the coding is again started up with control module of being burst described in triggering Module sends corresponding second coding information, wherein the wireless signal transmitting module receives second coding information and launched Corresponding second wireless singal at least once.
147. wireless signal transmitting method as described in claim 144, wherein the step (f) further comprises：Described After two wireless signals are sent, the control module of bursting controls the electronic switch module thoroughly to close, so that circuit Into off-position.
148. wireless signal transmitting method as described in claim 145, wherein the step (f) further comprises：Described After two wireless signals are sent, the control module of bursting controls the electronic switch module thoroughly to close, so that circuit Into off-position.
149. wireless signal transmitting method as described in claim 146, wherein the step (f) further comprises：Described After two wireless signals are sent, the control module of bursting controls the electronic switch module thoroughly to close, so that circuit Into off-position.
150. wireless signal transmitting method as described in claim 147, wherein the step (f) further comprises：It is described First wireless signal and the second wireless singal are received and complete to work accordingly.
151. wireless signal transmitting method as described in claim 148, wherein the step (f) further comprises：Described One wireless signal and the second wireless singal are received and complete to work accordingly.
152. wireless signal transmitting method as described in claim 149, wherein the step (f) further comprises：Described One wireless signal and the second wireless singal are received and complete to work accordingly.
153. wireless signal transmitting method as described in claim 150, wherein the step (f) further comprises：In treating An at least execution unit for machine state receives first wireless signal and the second wireless singal, wherein the execution unit Time interval between first wireless signal and second wireless singal is judged, wherein according to different time intervals Different control information is exported, wherein the terminal device receives the control information and makes corresponding control action.
154. wireless signal transmitting method as described in claim 151, wherein the step (f) further comprises：In treating An at least execution unit for machine state receives first wireless signal and the second wireless singal, wherein the execution unit Time interval between first wireless signal and second wireless singal is judged, wherein according to different time intervals Different control information is exported, wherein the terminal device receives the control information and makes corresponding control action.
155. wireless signal transmitting method as described in claim 152, wherein the step (f) further comprises：In treating An at least execution unit for machine state receives first wireless signal and the second wireless singal, wherein the execution unit Time interval between first wireless signal and second wireless singal is judged, wherein according to different time intervals Different control information is exported, wherein the terminal device receives the control information and makes corresponding control action.
156. wireless signal transmitting method as described in claim 150, wherein the step (f) further comprises：Input one Electric power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein described perform list Member is in holding state after obtaining power supply, wherein the execution unit receives first wireless signal and second nothing Line signal, wherein the execution unit is sentenced to the time interval between first wireless signal and second wireless singal It is disconnected, wherein different control information is exported according to different time intervals, wherein the terminal device receives the control information And make corresponding control action.
157. wireless signal transmitting method as described in claim 151, wherein the step (f) further comprises：Input one Electric power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein described perform list Member is in holding state after obtaining power supply, wherein the execution unit receives first wireless signal and second nothing Line signal, wherein the execution unit is sentenced to the time interval between first wireless signal and second wireless singal It is disconnected, wherein different control information is exported according to different time intervals, wherein the terminal device receives the control information And make corresponding control action.
158. wireless signal transmitting method as described in claim 152, wherein the step (f) further comprises：Input one Electric power, wherein it is respectively an at least execution unit and an at least light source power supply that the electric power, which is divided into two-way, wherein described perform list Member is in holding state after obtaining power supply, wherein the execution unit receives first wireless signal and second nothing Line signal, wherein the execution unit is sentenced to the time interval between first wireless signal and second wireless singal It is disconnected, wherein different control information is exported according to different time intervals, wherein the terminal device receives the control information And make corresponding control action.
159. wireless signal transmitting method as described in claim 156, wherein the execution unit is by controlling the light source The power supply in loop controls the light source to complete corresponding work.
In 160. such as claim 157 it is any as described in wireless signal transmitting method, wherein the execution unit is by controlling The power supply in light source loop is stated to control the light source to complete corresponding work.
In 161. such as claim 158 it is any as described in wireless signal transmitting method, wherein the execution unit is by controlling The power supply in light source loop is stated to control the light source to complete corresponding work.
162. wireless signal transmitting method as described in claim 148, wherein further comprising a step (g)：The power supply After connection, stablize the voltage of the circuit by an at least constant pressure unit.
163. wireless signal transmitting method as described in claim 154, wherein further comprising a step (g)：The power supply After connection, stablize the voltage of the circuit by an at least constant pressure unit.
164. wireless signal transmitting method as described in claim 160, wherein further comprising a step (g)：The power supply After connection, stablize the voltage of the circuit by an at least constant pressure unit.
165. wireless signal transmitting method as described in claim 162, wherein the form by frequency electromagnetic waves or light wave Launch first wireless signal and the second wireless singal.
166. wireless signal transmitting method as described in claim 163, wherein the form by frequency electromagnetic waves or light wave Launch first wireless signal and the second wireless singal.
167. wireless signal transmitting method as described in claim 164, wherein the form by frequency electromagnetic waves or light wave Launch first wireless signal and the second wireless singal.
168. 1 remote control electrical appliance systems, it is characterised in that including at least just like any described ultra micro work(in claim 1-22 Sender unit, at least an execution unit and an at least terminal device are consumed, wherein the execution unit receives the ultra micro work( The wireless signal at least once of sender unit transmitting is consumed, and the wireless signal is sent to the execution unit, with control Make the execution unit and complete corresponding work.
The 169. remote control electrical appliance system as described in claim 168, wherein the terminal device is an at least light source, wherein described Execution unit controls the light source to complete corresponding work by controlling the electric power of the circuit of light sources.
170. 1 ultra-micro power consumption sender units, it is characterised in that including：At least one bursts unit and an at least power input End, wherein when the power input input power, the unit of bursting completes at least one within the time less than 30 milliseconds The transmitting work of secondary wireless signal, wherein after the wireless signal is sent, the unit of bursting enters power failure state.
The 171. ultra-micro power consumption sender unit as described in claim 170, wherein power input input at least one Electric pulse, wherein the time of the pulse duration is 0.5-500 milliseconds.
The 172. ultra-micro power consumption sender unit as described in claim 171, when input for positive pulse when, the list of bursting Member transmitting corresponding wireless signal at least once, when input for negative pulse when, it is described burst unit transmitting at least once other Corresponding wireless signal.
The 173. ultra-micro power consumption sender unit as described in claim 171, including an at least command information end, wherein The preset at least command information in the command information end, to be burst described in control, unit is completed within the time less than 30 milliseconds Few transmitting work.
The 174. ultra-micro power consumption sender unit as described in claim 172, wherein the unit of bursting further comprise to A few coding module and an at least wireless signal transmitting module, wherein when input for positive pulse when, the cell call of bursting Preset corresponding coding information and corresponding wireless signal is launched by wireless signal transmitting module in the coding module, When input for negative pulse when, other preset corresponding coding informations and pass through nothing in the cell call coding module of bursting Line signal emission module launches other corresponding wireless signals.
The 175. ultra-micro power consumption sender unit as described in claim 173, wherein the unit of bursting further comprise to A few coding module and an at least wireless signal transmitting module, wherein what the coding module was sent according to the command information end The command information produces corresponding coding information, wherein the wireless signal transmitting module receives the coding information and launched Corresponding wireless signal at least once.
The 176. ultra-micro power consumption sender unit as described in claim 174, wherein the wireless signal transmitting module is launched The speed of wireless signal is 1Kbps-2Mbps, transmission power 0.1mW-50mW, and the time of wireless signal of transmitting is 0.2ms-30ms, the transmitting message length that once wireless signal is included is 1-48 byte.
The 177. ultra-micro power consumption sender unit as described in claim 175, wherein the wireless signal transmitting module is launched The speed of wireless signal is 1Kbps-2Mbps, transmission power 0.1mW-50mW, and the time of wireless signal of transmitting is 0.2ms-30ms, the transmitting message length that once wireless signal is included is 1-48 byte.
The 178. ultra-micro power consumption sender unit as described in claim 176, wherein the wireless signal transmitting module can weigh The wireless signal comprising identical message is sent in recurrence.
The 179. ultra-micro power consumption sender unit as described in claim 177, wherein the wireless signal transmitting module can weigh The wireless signal comprising identical message is sent in recurrence.
The 180. ultra-micro power consumption sender unit as described in claim 178, wherein the wireless signal transmitting module works Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless communication described in single-frequency or frequency-hopping transmissions Number.
The 181. ultra-micro power consumption sender unit as described in claim 179, wherein the wireless signal transmitting module works Between 10MHZ-50GHZ, wherein the wireless signal transmitting module passes through wireless communication described in single-frequency or frequency-hopping transmissions Number.
The 182. ultra-micro power consumption sender unit as described in claim 180, wherein the tune of the wireless signal transmitting module Mode processed is one kind in FSK, ASK, GFSK and OOK.
The 183. ultra-micro power consumption sender unit as described in claim 181, wherein the tune of the wireless signal transmitting module Mode processed is one kind in FSK, ASK, GFSK and OOK.
The 184. ultra-micro power consumption sender unit as described in claim 182, wherein the pulse duration inputted when Between be longer than launch time of the wireless signal, wherein the unit of bursting further comprises that at least one bursts control module, its In after the wireless signal transmission is completed at least once, the unit of bursting described in control module triggering of bursting enters dead electricity shape State.
The 185. ultra-micro power consumption sender unit as described in claim 183, wherein the pulse duration inputted when Between be longer than launch time of the wireless signal, wherein the unit of bursting further comprises that at least one bursts control module, its In after the wireless signal transmission is completed at least once, the unit of bursting described in control module triggering of bursting enters dead electricity shape State.
The 186. ultra-micro power consumption sender unit as described in claim 184, wherein the time of the electric pulse when input When being shorter than the time that the wireless signal transmission finishes, the parameter for unit of being burst described in adjustment, so that the hair of the wireless signal The duration that the time is shorter than the electric pulse of input is penetrated, wherein after the wireless signal transmission is completed at least once, The unit of bursting described in control module triggering of bursting enters power failure state.
The 187. ultra-micro power consumption sender unit as described in claim 185, wherein unit of optionally being burst described in adjustment The emission rate of the wireless signal transmitting module, transmission power, the time of wireless signal of transmitting or transmission it is wireless One or more in the length for the message that signal is included so that the launch time of the wireless signal be shorter than the described of input The duration of electric pulse.
The 188. ultra-micro power consumption sender unit as described in claim 184, wherein control module and the volume of bursting Code module is embodied as a micro-control unit, wherein the course of work of the unit of bursting is by an at least programme-control, wherein described Program storage is in the memory of the micro-control unit.
In 189. such as claim 185 it is any as described in ultra-micro power consumption sender unit, wherein it is described burst control module and The coding module is embodied as a micro-control unit, wherein the course of work of the unit of bursting is by an at least programme-control, its Described in program storage in the memory of the micro-control unit.
In 190. such as claim 186 it is any as described in ultra-micro power consumption sender unit, wherein it is described burst control module and The coding module is embodied as a micro-control unit, wherein the course of work of the unit of bursting is by an at least programme-control, its Described in program storage in the memory of the micro-control unit.
In 191. such as claim 187 it is any as described in ultra-micro power consumption sender unit, wherein it is described burst control module and The coding module is embodied as a micro-control unit, wherein the course of work of the unit of bursting is by an at least programme-control, its Described in program storage in the memory of the micro-control unit.
The 192. ultra-micro power consumption sender unit as described in claim 184, wherein the control module of bursting, the coding Module and the wireless signal transmitting module are embodied as a micro-control unit, wherein the course of work of the unit of bursting is by least One programme-control, wherein described program are stored in the memory of the micro-control unit.
The 193. ultra-micro power consumption sender unit as described in claim 185, wherein the control module of bursting, the coding Module and the wireless signal transmitting module are embodied as a micro-control unit, wherein the course of work of the unit of bursting is by least One programme-control, wherein described program are stored in the memory of the micro-control unit.
The 194. ultra-micro power consumption sender unit as described in claim 186, wherein the control module of bursting, the coding Module and the wireless signal transmitting module are embodied as a micro-control unit, wherein the course of work of the unit of bursting is by least One programme-control, wherein described program are stored in the memory of the micro-control unit.
The 195. ultra-micro power consumption sender unit as described in claim 187, wherein the control module of bursting, the coding Module and the wireless signal transmitting module are embodied as a micro-control unit, wherein the course of work of the unit of bursting is by least One programme-control, wherein described program are stored in the memory of the micro-control unit.
The 196. ultra-micro power consumption sender unit as described in claim 189, wherein the command information at the command information end Produced by sensor.
The 197. ultra-micro power consumption sender unit as described in claim 191, wherein the command information at the command information end Produced by sensor.
The 198. ultra-micro power consumption sender unit as described in claim 196, wherein the sensor is temperature sensor, wet The one kind spent in sensor, luminance sensor, movable sensor, shock sensor, sound transducer.
The 199. ultra-micro power consumption sender unit as described in claim 197, wherein the sensor is temperature sensor, wet The one kind spent in sensor, luminance sensor, movable sensor, shock sensor, sound transducer.
200. 1 remote control electrical appliance systems, it is characterised in that including at least just like any described ultra micro in claim 170-199 Power loss signal emitter, at least an execution unit and at least a terminal device, wherein the execution unit receives the ultra micro The wireless signal at least once of power loss signal emitter transmitting, and the wireless signal is sent to the execution unit, with The execution unit is controlled to complete corresponding work.
The 201. remote control electrical appliance system as described in claim 200, wherein the terminal device is an at least light source, wherein described Execution unit controls the light source to complete corresponding work by controlling the electric power of the circuit of light sources.
The 202. remote control electrical system as described in claim 200, wherein the terminal device is intelligent domestic system, calling system One kind in system, automatic control system and door bell and button system.