CN105276517A - Wireless remote controlled luminous accessory - Google Patents

Abstract

The invention discloses a wireless remote controlled luminous accessory. The wireless remote controlled luminous accessory comprises a substrate, a light source, a driving device, a decoder, a wireless radio frequency identification device and a power source device. The light source comprises a plurality of matrix-arranged luminous units which are fixed to the substrate. The driving device is coupled to the light source to drive the light source. The power source device can provide electric power needed in the operation of the wireless remote controlled luminous accessory. The decoder is coupled to the driving device to make the driving device drive the luminous units respectively. The wireless radio frequency identification device (RFID) comprises an antenna. The RFID is used for receiving wireless information and providing the wireless information to the decoder. The decoder is capable of controlling the driving device according to the information, so that a luminous pattern which is set by the information is produced through the light source. The decoder also controls the driving device according to the information to make the light source emit light in the brightness, the color and the flicker frequency set by the information, and to make the light source be controlled through a brightness control method of the information.

Description

Wireless remote control light-emitting accessories

Technical field

The present invention relates to a kind of wireless remote control light-emitting accessories.

Background technology

Light emitting diode (LED) is a kind of semiconductor electronic component that can be luminous.Now, the application of light emitting diode is mainly as state display lamp, stop-light, display screen display lamp, display backlight light source, illumination, mobile phone flashlight and room lighting etc.

The advantages such as light emitting diode has power saving, reliable, volume is little, lightweight, vibration resistance, life-span length, should develop and be applied even more extensively than conventional bulb.

Summary of the invention

Because foregoing problems, the present invention proposes the wireless remote control light-emitting accessories of different embodiment accordingly.

In at least some embodiments of the invention, wireless remote control light-emitting accessories comprise a substrate, a light source, a drive unit, a decoder and a radio frequency identification (RFID) device.Light source comprises the luminescence unit of multiple matrix array type, and wherein those luminescence units are fixed on substrate.In one embodiment, each luminescence unit is made up of the light emitting diode (LED) of three looks such as red, green and blue, so can according to International Commission on Illumination (InternationalCommissiononIllumination, CIE) specification, by giving different LED different voltage, control the color that luminescence unit sends.In one embodiment, light source includes OLED (organiclight-emittingdiodes; OLED), same each luminescence unit is made up of the Organic Light Emitting Diode (OLED) of three looks such as red, green and blue, so can according to International Commission on Illumination (InternationalCommissiononIllumination, CIE) specification, by giving the different voltage of different OLED, control the color that luminescence unit sends.Drive unit optical light source, to drive this light source.Decoder couples drive unit, can drive individually those luminescence units to make this drive unit.RFID device comprises an antenna, and wherein RFID device is for receiving a wireless remote control information, and this information is supplied to decoder.Decoder can according to the information accessory drive received, to produce corresponding luminous pattern.

In at least some embodiments of the invention, wireless remote control light-emitting accessories comprise a substrate, a light source, a drive unit, a digital/analog converter, a decoder, a RFID device and a supply unit.Light source comprises the luminescence unit of multiple matrix array type, and wherein those luminescence units are fixed on substrate.Drive unit optical light source, to drive this light source.Decoder couples digital/analog converter and controllable drive unit, can regulate and control individually those luminescence units and brightness thereof to make this drive unit.RFID device comprises an antenna, and wherein RFID device is for receiving a wireless remote control information, and this information is supplied to decoder.Decoder couples digital/analog converter and can according to the Information Regulating drive unit received, and produces luminous pattern set by this information to make this light source; This decoder controls this drive unit according to this information, sends brightness set by this information, color and flicker frequency to make this light source; This decoder controls this drive unit according to this information, allows this light source control this light source according to the brilliance control mode of this information.

In certain embodiments, wireless remote control light-emitting accessories can utilize the inertia sensing signal magnitude of accelerometer or gyroscope etc., the pattern that transformation light source sends and brightness.

In certain embodiments, wireless remote control light-emitting accessories can be fixed into ring-type.

In certain embodiments, wireless remote control light-emitting accessories can be fixedly attached on health or object.

In at least some embodiments of the invention, wireless remote control light-emitting accessories can utilize wireless remote control, the pattern that random transformation light source sends.Moreover wireless remote control light-emitting accessories can utilize accelerometer or gyrostatic inertia sensing signal, the pattern that transformation light source sends and brightness, and the pattern that light source like this sends and brightness can change along with the action of user.Again, wireless remote control light-emitting accessories can utilize analog/digital converter, there is provided accelerometer or gyrostatic inertia sensing signal to remote control (or supervising device), to calculate and to obtain status of action or the position of user, and this inertia sensing signal can be opened light source or change pattern and the brightness of light source; Or flicker frequency, to provide warning.In addition, wireless remote control light-emitting accessories can be fixed into ring-type, or with devil sticky and double faced adhesive tape etc., attach and be fixed on health or object; Or to dig a hole in its surrounding and to pass in order to rope, be fixed and be attached on health; Or on the article being placed in entrained by user.

Accompanying drawing explanation

Fig. 1 is the wireless remote control light-emitting accessories of one embodiment of the invention and the schematic diagram of a remote control.

Fig. 2 is the schematic diagram of the wireless remote control light-emitting accessories of one embodiment of the invention.

Fig. 3 is the sectional view along Fig. 2 hatching 100-100.

Fig. 4 A is the schematic diagram of the luminous pattern of one embodiment of the invention.

Fig. 4 B is another schematic diagram of the luminous pattern of one embodiment of the invention.

Fig. 5 be the light emitting diode of one embodiment of the invention drive unit in drive circuit schematic diagram.

Fig. 6 A is the schematic diagram of the wireless remote control light-emitting accessories of another embodiment of the present invention, wherein wireless remote control light-emitting accessories are without accelerometer/gyroscope, amplifier, analog/digital converter and digital/analog converter, can not regulate and control the brightness of light emitting diode and position monitoring.

Fig. 6 B is the schematic diagram of the wireless remote control light-emitting accessories of another embodiment of the present invention, wherein wireless remote control light-emitting accessories have accelerometer/gyroscope, amplifier, analog/digital converter and digital/analog converter, the brightness of controllable light emitting diode or position monitoring.

Wherein, description of reference numerals is as follows:

1 remote control

2 wireless remote control light-emitting accessories

21 antennas

22 controls/modulator

30 amplifiers

31 substrates

32 light sources

33 drive units

34 decoders

35RFID device

36 processors

37 accelerometers/gyroscope

38 supply units

39 analog/digital converters

40 digital/analog converters

310 silicon dioxide layers

311 silicon dioxide layers

312 positive polarity photoresist layers

313 positive polarity photoresist layers

314a, 314b bore a hole

315 metal levels

316 heat-conducting double-sided adhesive tapes

317a, 317b, 318 circuits

321 luminescence units

3141 conductive poles

3211 lens

Rb, Rc resistance

Detailed description of the invention

The advantages such as at least some embodiment of the present invention utilizes that the power saving of light emitting diode, volume are little, lightweight, vibration resistance, life-span are long, provide a kind of luminous accessories.In at least some embodiments, luminous accessories can be worn on the person.

At least some embodiment of the present invention provides a kind of wireless remote control light-emitting accessories, and these wireless remote control light-emitting accessories can be worn on partes corporis humani position, or is placed on the article that carry.Wireless remote control light-emitting accessories, by the wireless remote control of remote control, change the light pattern that on luminous accessories, luminescence unit sends.In certain embodiments, wireless remote control light-emitting accessories can be worn by performer, and by the wireless remote control of remote control, can change luminous pattern in performance is carried out, and performer like this without the need to again for changing luminous pattern, and changes the luminous accessories worn.

At least some embodiment of the present invention provides a kind of wireless remote control light-emitting accessories, and these wireless remote control light-emitting accessories can be worn on partes corporis humani position, or is placed on the article that carry.Wireless remote control light-emitting accessories, by the wireless remote control of remote control, change light pattern and brightness that on luminous accessories, luminescence unit sends.In certain embodiments, wireless remote control light-emitting accessories can be worn by performer, and by the wireless remote control of remote control, can change luminous pattern and brightness in performance is carried out, performer like this without the need to again for changing luminous pattern and brightness, and changes the luminous accessories worn.

In at least some embodiments, wireless remote control light-emitting accessories can arrange accelerometer and/or gyroscope.Accelerometer or gyroscope when performer's action, can produce inertia sensing signal; And this inertia sensing signal can change the luminous pattern of luminescence unit on luminous accessories, brightness, glow frequency, Integral luminous color or produce the pattern of many colors.So, wireless remote control light-emitting accessories can the beat of routing motion, carries out the change of synchronous mode, coordinates dance movement rhythm, the luminous pattern of conversion light emitting diode, brightness, glow frequency, Integral luminous color or produce the pattern of many colors and brightness.

In certain embodiments, wireless remote control light-emitting accessories can be worn at patient.In certain embodiments, wireless remote control light-emitting accessories have accelerometer and/or gyroscope, if so during falling patient, the inertia sensing signal that accelerometer or gyroscope produce, the luminous pattern of light emitting diode and brightness, glow frequency or Integral luminous color and brightness can be changed, to give a warning.In certain embodiments, accelerometer or gyrostatic inertia sensing signal, by Wireless transceiver to supervising device, to give a warning.

Fig. 1 is the wireless remote control light-emitting accessories 2 of one embodiment of the invention and the schematic diagram of a remote control 1.With reference to shown in Fig. 1, remote control 1 can wireless communicated data to wireless remote control light-emitting accessories 2.Remote control 1 can receive the data from wireless remote control light-emitting accessories 2.In one embodiment, when remote control 1 can provide wireless remote control light-emitting accessories 2 to operate, required electric wave signal and/or electric energy.

With reference to shown in Fig. 1, remote control 1 comprises a fetch equipment.Fetch equipment comprises a transmitter or receiver (transmitter/receiver).Transmitter or receiver coupling antenna, to transmit data and/or electric energy to wireless remote control light-emitting accessories 2, or receive data from wireless remote control light-emitting accessories 2.

Remote control 1 can comprise supervising device.Supervising device can with transmitter or receiver communication.Supervising device can analyze the data that transmitter or receiver receive, or provides transmitter or receiver to send data needed for wireless remote control light-emitting accessories 2 to.In one embodiment, supervising device, can warning after receiving the data that wireless remote control light-emitting accessories 2 transmit.In one embodiment, be with RS-232 line between supervising device and transmitter or receiver, but the present invention is not as limit.

With reference to shown in Fig. 1, in one embodiment, wireless remote control light-emitting accessories 2 can be an active RFID (radiofrequencyidentification) device.In one embodiment, wireless remote control light-emitting accessories 2 can be a passive type RFID device.Wireless remote control light-emitting accessories 2 comprise an antenna 21.Antenna 21 is for carrying out wireless telecommunications with remote control 1.Wireless remote control light-emitting accessories 2 can comprise control/modulator (control/modulator) 22, and control/modulator 22 can coupling antenna 21.Control/modulator 22 can be used for utilizing modulation signal (modulatingsignal) to change carrier wave (carrierwave), and in carrier wave (modulatedcarriedwave) signal from modulation, take out (extract) signal (information-embeddedsignal) with data.

Wireless remote control light-emitting accessories 2 can comprise rectifier (rectifier).Rectifier be for by antenna 21 after (radiosignal) rectification that receives radio signals, produce a dc source, with when wireless remote control light-emitting accessories 2 start as " active mode (activemode) " operation from " sleep pattern " or " passive mode " of power saving, start up system (systeminitialization), to use the reserve battery on accessories 2, drive wireless remote control light-emitting accessories 2.

Shown in Fig. 1 and Fig. 6 B, wireless remote control light-emitting accessories 2 can comprise an analog/digital converter (A/Dconverter) 39.Analog/digital converter (A/Dconverter) 39 by from the accelerometer of amplifier (amplifier) 30 and/or the inertia sensing signal of gyroscope 37, can convert data signal to, to give processor 36.

Shown in Fig. 1 and Fig. 6 B, wireless remote control light-emitting accessories 2 can comprise an amplifier (amplifier) 30.Amplifier (amplifier) 30 can will speed up instrument and/or gyroscope 37 measures the inertia sensing signal amplification of arriving.In one embodiment, amplifier 30 can be instrument amplifier (InstrumentationAmplifiers).

With reference to shown in Fig. 1 and Fig. 2, wireless remote control light-emitting accessories 2 comprise a light source 32.Light source 32 can comprise multiple can the luminescence unit of independent work.In one embodiment, light source comprises multiple optical diode.In one embodiment, each luminescence unit is made up of the light emitting diode (LED) of three looks such as red, green and blue, so can according to International Commission on Illumination (InternationalCommissiononIllumination, CIE) specification, by giving different LED different voltage, control the color that luminescence unit sends.In one embodiment, light source includes OLED (organiclight-emittingdiodes; OLED).In one embodiment, each luminescence unit is made up of the Organic Light Emitting Diode (OLED) of three looks such as red, green and blue, so can according to International Commission on Illumination (InternationalCommissiononIllumination, CIE) specification, by giving the different voltage of different OLED, control the color that luminescence unit sends.

With reference to shown in Fig. 1 and Fig. 2, wireless remote control light-emitting accessories 2 comprise a drive unit 33.Drive unit optical light source 32, to drive this light source.In one embodiment, drive unit comprises light emitting diode drive device.In one embodiment, drive unit comprises OLED drive unit.

Shown in Fig. 1 and Fig. 6 B, wireless remote control light-emitting accessories 2 comprise a decoder (decoder) 34.Decoder 34 couples digital/analog converter 40 (D/Aconverter), to regulate and control drive unit 33, and the luminous and brightness with the luminescence unit of indivedual driving light source 32.

Shown in Fig. 1 and Fig. 6 B, wireless remote control light-emitting accessories 2 can comprise accelerometer (accelerometers) or gyroscope (rategyroscopes).Accelerometer or gyroscope are for sensing the inertial acceleration and angular velocity signal that produce when wireless remote control light-emitting accessories 2 move.Moreover wireless remote control light-emitting accessories 2 can comprise a processor (processor) 36.Processor 36 can couple decoder 34 and accelerometer or gyroscope 37.Processor 36 can receive the signal that accelerometer or gyroscope 37 produce, and controls luminous pattern that decoder 34 shows according to this signal transformation light source, brightness, color or glow frequency.

In one embodiment, accelerometer or gyroscope 37 can be accelerometer or the gyroscope of an axle, two axles or three axles.

With reference to shown in Fig. 1, wireless remote control light-emitting accessories 2 can comprise a memory (memory).Memory can store wireless remote control light-emitting accessories 2 when operating, required program and data.

Fig. 2 is the schematic diagram of the wireless remote control light-emitting accessories 2 of one embodiment of the invention.Fig. 3 is the sectional view along Fig. 2 hatching 100-100.With reference to shown in Fig. 2 and Fig. 3, wireless remote control light-emitting accessories 2 comprise substrate 31, light source 32, drive unit 33, decoder 34 and a RFID device 35.Light source 32 is fixing on the substrate 31.Light source 32 can comprise the luminescence unit 321 of multiple matrix arrangement.Drive unit 33 comprises multiple resistance Rb, and multiple resistance Rb is with corresponding line 317a optical light source 32 on substrate 31; Drive unit 33 comprises multiple resistance Rc, and multiple resistance Rc couples supply unit 38 with corresponding line 317b on substrate 31.Drive unit 33 is for driving light source 32.Decoder 34 through resistance Rb, then couples drive unit 33 with corresponding line 318 on substrate 31.Decoder 34 can drive individually luminescence unit 321 for making drive unit 33.RFID device 35 can comprise an antenna 21.RFID device 35 is for carrying out wireless telecommunications with remote control 1 or other devices.

In one embodiment, this information is supplied to decoder 34 after receiving an information (message) from remote control 1 or other devices by RFID device 35.Decoder 34 controls this drive unit 33 according to this information, makes light source 32 produce desired luminous pattern.

In one embodiment, luminous pattern comprises any geometric figure (geometricfigure), " × " shape as shown in Figure 4 A.In one embodiment, luminous pattern comprises word, " D " letter as shown in Figure 4 B.In one embodiment, in luminous pattern, the brightness of each luminescence unit 321, also can control and adjust.

In one embodiment, drive unit 33 can allow light source 32 send the pattern of flicker according to the setting in information.In one embodiment, drive unit 33 can allow the luminescence unit 321 of light source 32 glimmer (flashedingroups) in a cluster.In one embodiment, drive unit 33 can allow the other alternately of the luminescence unit 321 of light source 32 glimmer.In one embodiment, drive unit 33 can allow the optionally indivedual alternately flicker of the luminescence unit 321 of light source 32.

In one embodiment, luminescence unit 321 comprises light emitting diode.In one embodiment, luminescence unit 321 comprises at least one Organic Light Emitting Diode.

In one embodiment, each luminescence unit 321 can be arranged an optical lens 3211, wherein the luminescence of luminescence unit 321 is penetrated after optical lens 3211.

With reference to shown in Fig. 5, in one embodiment, luminescence unit 321 comprises light emitting diode, and drive unit 33 comprises the driving transistors of multiple correspondence, such as (but being not limited to): bipolarity junction transistor (bipolarjunctiontransistor, BJT).Drive unit 33 comprises multiple resistance Rb, and multiple resistance Rb is with the corresponding line 317a optical light source 32 on substrate 31; Drive unit 33 comprises multiple resistance Rc, and multiple resistance Rc couples supply unit 38 with the corresponding line 317b on substrate 31.

Fig. 6 A is the schematic diagram of the wireless remote control light-emitting accessories 2 of another embodiment of the present invention.Without accelerometer/gyroscope, amplifier, analog/digital converter and digital/analog converter, the wireless remote control light-emitting accessories 2 of Fig. 6 A can not regulate and control the brightness of light emitting diode and position monitoring.

Shown in Fig. 6 A, wireless remote control light-emitting accessories 2 can comprise a processor 36, decoder 34, digital/analog converter 40, drive unit 33 and light source 32.Processor 36 can receive the remote measurement control signal of monitoring client, transmit a corresponding informance after treatment to decoder 34, decoder 34 and digital/analog converter 40 carry out driver 33 according to this corresponding informance, produce the luminous pattern set by this corresponding informance and make light source 32 send brightness set by this corresponding informance.

Shown in Fig. 6 B, wireless remote control light-emitting accessories 2 can comprise a processor 36, and wireless remote control light-emitting accessories 2 can comprise an accelerometer and/or gyroscope 37 further.Accelerometer/gyroscope 37 can be passed through amplifier 30 and analog/digital converter 39 couples processor 36.Accelerometer/gyroscope 37 when wireless remote control light-emitting accessories 2 are moved, can produce signal.Processor 36 can receive this inertia sensing signal, transmit a corresponding informance after treatment to decoder 34, decoder 34 and digital/analog converter 40 carry out driver 33 according to this corresponding informance, produce the luminous pattern set by this corresponding informance and make light source 32 send brightness set by this corresponding informance.

In one embodiment, wireless remote control light-emitting accessories 2 are when friction speed moves, and light source 32 can send different luminous patterns and brightness.In one embodiment, wireless remote control light-emitting accessories 2 are when friction speed moves, and light source 32 can send the action of following according to need: as sent the different pattern of the pattern of different flicker frequency or different patterns or color.As in one embodiment, when wireless remote control light-emitting accessories 2 translational speed changes, light source 32 can send the pattern of different flicker frequency.As in one embodiment, when wireless remote control light-emitting accessories 2 move very fast, light source 32 sends flicker frequency luminous pattern faster.As in one embodiment, when wireless remote control light-emitting accessories 2 move slower, light source 32 sends the slower luminous pattern of flicker frequency.

In one embodiment, processor 36 is according to the inertia sensing signal of accelerometer/gyroscope 37, utilize predetermined a series of threshold values (asetofthresholdvalues), determine that light source 32 sends the action of following: as the kind of pattern or the brightness of pattern or the color of pattern, or the frequency of pattern.

Shown in Fig. 2, Fig. 6 A and Fig. 6 B, wireless remote control light-emitting accessories 2 comprise a supply unit 38 (providing power Vcc), electric power required when wherein supply unit 38 can provide wireless remote control light-emitting accessories 2 to operate.

Shown in Fig. 6 B, in one embodiment, processor 36 couples RFID device 35, and non-immediate couples decoder 34.This object, after processor 36 receives the inertia sensing signal of accelerometer/gyroscope 37, inertia sensing signal is sent to RFID device 35.Then, RFID device 35, by antenna 21, sends this inertia sensing signal to remote control 1 or other devices.Remote control 1 or other devices can according to this signals, calculate and determine action state or the position of user.

With reference to shown in Fig. 3, in one embodiment, substrate 31 comprises flexible substrate, and wireless remote control light-emitting accessories 2 like this can be attached to user any position with it; Or wireless remote control light-emitting accessories 2 can be rolled into ring-type, are enclosed within it user.In one embodiment, wireless remote control light-emitting accessories 2 comprise fixture, such as: devil is sticky, double faced adhesive tape or other.Fixture can wireless remote control light-emitting accessories 2 around user with it after, allow wireless remote control light-emitting accessories 2 keep ring-type.In one embodiment, wireless remote control light-emitting accessories 2 may be worn on finger, wrist, arm, pin or head.In one embodiment, wireless remote control light-emitting accessories 2 can paste with it.In one embodiment, can dig a hole in wireless remote control light-emitting accessories 2 surrounding and to pass in order to rope, be fixed and be attached on health.In one embodiment, wireless remote control light-emitting accessories 2 can be placed on the article entrained by user.

Shown in Fig. 1, Fig. 6 A and Fig. 6 B, remote control 1 sends wireless remote control light-emitting accessories 2 information to.Information transfers to decoder 34 again.The command format of information can be 1 word (WORD), and this word can comprise high byte (HIGHERBYTE), and low byte (LOWERBYTE), as shown in table 1 below:

Table 1

High byte (HIGHER BYTE)

Low byte (LOWER BYTE)

High byte (HIGHERBYTE) can have 8 positions (Bit), can have 256 kinds of permutation and combination altogether.High byte is position (as head, hand, foot and chest) for specification LED bright light and pattern number thereof, as shown in table 2 below:

Table 2

Position 7

Position 6

Position 5

Position 4

Position 3

Position 2

Position 1

Position 0

Chest

Chest

Foot

Foot

Hand

Hand

Head

Head

The definition standard of head is as shown in table 3 below:

Table 3

Position 1	Position 0	Head
			0	0	Pattern 1
0	1	Pattern 2
			1	0	Pattern 3
1	1	Pattern 4

The definition standard of hand is as shown in table 4 below:

Table 4

Position 3	Position 2	Hand
			0	0	Pattern 1
0	1	Pattern 2
			1	0	Pattern 3
1	1	Pattern 4

The definition standard of foot is as shown in table 5 below:

Table 5

Position 5	Position 4	Foot
			0	0	Pattern 1
0	1	Pattern 2
			1	0	Pattern 3
1	1	Pattern 4

The definition standard of chest is as shown in table 6 below:

Table 6

Position 7	Position 6	Chest
			0	0	Pattern 1
0	1	Pattern 2
			1	0	Pattern 3
1	1	Pattern 4

Low byte (LOWERBYTE) can have 8 positions (Bit), and it can be used for the brightness of specification color, flicker frequency, control mode and LED bright light, as shown in table 7 below.

Table 7

The definition standard of color is as shown in table 8 below:

Table 8

Position 1	Position 0	Color
			0	0	Red
0	1	Green
			1	0	Blue
1	1	White

The definition standard of flicker frequency is as shown in table 9 below:

Table 9

Position 3	Position 2	Flicker frequency (secondary/second)
			0	0	0.2
0	1	0.5
			1	0	1
1	1	Continue constant

The definition standard of brilliance control mode is as shown in table 10:

Table 10

The brightness definition standard of LED bright light is as following table 11:

Table 11

Position 7	Position 6	Brightness numbering code
			0	0	Not 0 (not working completely, the most secretly)
0	1	1 (brightness 1, slightly secretly)
			1	0	2 (brightness 2, secondary bright)
1	1	3 (brightness 3, the brightest)

With reference to shown in Fig. 3, in one embodiment, wireless remote control light-emitting accessories 2 comprise a silicon dioxide layer 310.Silicon dioxide layer 310 is formed in the back side (surface relative with light source 32) of substrate 31.Silicon dioxide layer 310 can have the thickness (the present invention is not as limit) of 1 to 20 micron.Silicon dioxide layer 310 can be heat insulation or damp proof.

With reference to shown in Fig. 3, in one embodiment, wireless remote control light-emitting accessories 2 comprise a silicon dioxide layer 311.Silicon dioxide layer 311 is formed in the front of substrate 31.Silicon dioxide layer 311 can have the thickness (the present invention is not as limit) of 1 to 20 micron.

With reference to shown in Fig. 3, in one embodiment, wireless remote control light-emitting accessories 2 comprise a positive polarity photoresist layer 312.Positive polarity photoresist layer 312 covers silicon dioxide layer 310.Positive polarity photoresist layer 312 can have thickness 1 to 5 micron (the present invention is not as limit).Positive polarity photoresist layer 312 can protect silicon dioxide layer 310 and as damp course.

With reference to shown in Fig. 3, in one embodiment, wireless remote control light-emitting accessories 2 comprise a positive polarity photoresist layer 313.Positive polarity photoresist layer 313 is formed on silicon dioxide layer 311.

With reference to shown in Fig. 3, wireless remote control light-emitting accessories 2 can be formed perforation (314a and 314b).In one embodiment, perforation (314a and 314b) can utilize laser to be formed.Size after the structure dresses such as the driving element on corresponding luminescence unit 321, the luminescence units 321 such as the perforation quantity of (314a and 314b), size, position or spacing in optical lens and drive unit 33.

Conductive pole 3141 can be formed in perforation (314a and 314b).In certain embodiments, the front and back of the substrate 31 of wireless remote control light-emitting accessories 2 is formed with circuit.The front-side circuit of substrate 31 connects supply unit 38 and light source 32 or drive unit 33, conductive pole 3141 correspondence in the perforation (314a or 314b) of part connects light source 32 or drive unit 33, the conductive pole 3141 in the perforation (314a or 314b) of the back-side circuit coupling part of substrate 31 and supply unit 38.In one embodiment, wireless remote control light-emitting accessories 2 comprise a metal level 315.Metal level 315 is formed at the back side of substrate 31.Conductive pole 3141 connection metal layer 315 at least part of perforation (314a or 314b), the heat that light source 32 like this or drive unit 33 produce, metal level 315 is passed to, by this heat that produces of dissipation light source 32 or drive unit 33 by the conductive pole 3141 in chadless (314a or 314b).In one embodiment, metal level 315 comprises chromium and nickel dam.

With reference to shown in Fig. 3, in one embodiment, the front of substrate 31 can form circuit, wherein this circuit at least contact resistance (Rb and Rc), light source 32, drive unit 33, decoder 34, RFID device 35 and supply unit 38.In one embodiment, circuit comprises chromium and nickel dam.In one embodiment, circuit comprises gold, chromium and nickel dam.

With reference to shown in Fig. 3, in one embodiment, contact in resistance (Rb and Rc), light source 32, drive unit 33, decoder 34 and RFID device 35, surface mount technology and conducting resinl (such as: elargol) can be utilized, the weld pad (bondingpads) that gluing is corresponding on the substrate 31.In one embodiment, RFID device 35 comprises chip, and wherein this chip is the feed terminal (feedterminals) being bonded on antenna 21 in upside-down mounting mode.In one embodiment, resistance (Rb and Rc), light source 32, drive unit 33, decoder 34 and RFID device 35 can utilize reflow technology to weld on the substrate 31.In one embodiment, under the chip of RFID device 35, primer can be poured into, to increase its tack, difficult drop-off.

Wireless remote control light-emitting accessories 2 comprise a thermal conductivity two-sided tape 316, wherein thermal conductivity two-sided tape 316 covers the whole back side of substrate 31, wireless remote control light-emitting accessories 2 like this can be fixed on any position of health or object, and health or object also can not landings when mobile.In addition, thermal conductivity two-sided tape 316 also contributes to the heat radiation of light source 32 and drive unit 33, and does not affect reception and the transmission of RFID signal.

Technology contents of the present disclosure and technical characterstic disclose as above, but those skilled in the art still may do all replacement and the modification that do not deviate from disclosure spirit based on teaching of the present disclosure and announcement.Therefore, protection domain of the present disclosure should be not limited to implement example those disclosed herein, and should comprise various do not deviate from replacement of the present disclosure and modification, and by claim contained.

Claims (17)

1. wireless remote control light-emitting accessories, comprise:

One substrate;

One light source, comprises the luminescence unit of multiple matrix arrangement, and those luminescence units are fixing on the substrate;

One drive unit, couples this light source, to drive this light source;

One decoder, couples this drive unit, drives individually those luminescence units to make this drive unit; And

One radio frequency identification device, comprises an antenna, and wherein this radio frequency identification device is for receiving an information, and provides this decoder by this information; And

One supply unit, electric power required when providing these wireless remote control light-emitting accessories to operate;

Wherein this decoder controls this drive unit according to this information, produces luminous pattern set by this information to make this light source; This decoder controls this drive unit according to this information, sends brightness set by this information, color and flicker frequency to make this light source; This decoder controls this drive unit according to this information, is control according to the brilliance control mode of this information to make this light source.

2. wireless remote control light-emitting accessories according to claim 1, wherein this light source comprises multiple light emitting diode or Organic Light Emitting Diode.

3. wireless remote control light-emitting accessories according to claim 1, also comprise a fixture, and wherein this substrate comprises flexible substrate, and this fixture can allow this substrate be held in ring-type.

4. wireless remote control light-emitting accessories according to claim 1, also comprise many conductive poles and a metal level, and wherein this metal level is arranged on the substrate relative to this light source; Those conductive poles of part connect this light source or this drive unit, and through this substrate, connect this metal level.

5. wireless remote control light-emitting accessories according to claim 1, also comprise a fixing apparatus, and wherein this fixing apparatus is used for fixing this substrate.

6. wireless remote control light-emitting accessories according to claim 5, wherein this fixing apparatus is heat-conducting double-sided adhesive tape.

7. wireless remote control light-emitting accessories according to claim 1, also comprise many conductive poles, and wherein those conductive poles connect this light source and this drive unit respectively, and through this substrate.

8. wireless remote control light-emitting accessories, comprise:

One substrate;

One light source, comprises the luminescence unit of multiple matrix arrangement, and those luminescence units are fixing on the substrate;

One drive unit, couples this light source, to drive this light source;

One decoder, couples this drive unit, drives individually those luminescence units to make this drive unit;

One radio frequency identification device, comprises an antenna, and wherein this radio frequency identification device is for receiving a wireless remote control information, and provides this decoder by this information; And

One supply unit, electric power required when providing these wireless remote control light-emitting accessories to operate;

Wherein this decoder controls this drive unit according to this wireless remote control information, with the brightness making this light source produce the luminous pattern set by this wireless remote control information and send set by this wireless remote control information.

9. wireless remote control light-emitting accessories according to claim 8, wherein this light source comprises multiple light emitting diode or Organic Light Emitting Diode.

10. wireless remote control light-emitting accessories according to claim 8, also comprise an amplifier, an analog/digital converter, at least one accelerometer or at least one gyroscope, and a processor, wherein this processor couples this decoder, this processor separately couples this accelerometer or gyroscope via this analog/digital converter and this amplifier, and after this processor receives this accelerometer or gyrostatic signal, this processor controls this luminous pattern or color or this brightness that this decoder converts the display of this light source.

11. wireless remote control light-emitting accessories according to claim 8, also comprise at least one accelerometer or at least one gyroscope, wherein this radio frequency identification device couples this accelerometer or gyroscope, and after this radio frequency identification device receives this accelerometer or gyrostatic inertia sensing signal, this this antenna of inertia sensing signal mat sends out by this radio frequency identification device.

12. wireless remote control light-emitting accessories according to claim 8, also comprise a fixture, wherein this substrate comprises flexible substrate, and this fixture can allow this substrate be held in ring-type.

13. wireless remote control light-emitting accessories according to claim 8, also comprise many conductive poles and a metal level, and wherein this metal level is arranged on the substrate relative to this light source; Those conductive poles of part connect this light source or this drive unit, and through this substrate, connect this metal level.

14. wireless remote control light-emitting accessories according to claim 8, also comprise a fixing apparatus, and wherein this fixing apparatus is used for fixing this substrate.

15. wireless remote control light-emitting accessories according to claim 14, wherein this fixing apparatus is heat-conducting double-sided adhesive tape.

16. wireless remote control light-emitting accessories according to claim 8, also comprise many conductive poles, and wherein those conductive poles connect this light source and this drive unit respectively, and through this substrate.

17. wireless remote control light-emitting accessories according to claim 8, also comprise a processor, a D/A intends converter, wherein this processor receives this wireless remote control information, this wireless remote control information of this processor process also transmits a corresponding informance to this decoder, this decoder and this digital/analog converter drive this drive unit according to this corresponding informance, make this light source produce luminous pattern set by this corresponding informance; This decoder controls this drive unit according to this information, sends brightness set by this information, color and flicker frequency to make this light source; This decoder controls this drive unit according to this information, is control according to the brilliance control mode of this information to make this light source.