CN102958250A - Illumination system relating to light-emitting-diode lamps - Google Patents

Abstract

An illumination system at least including a first light-emitting-diode (LED) lamp and a first driving device with a communication function is provided. The first driving device is coupled to the first LED lamp, and is configured to receive a first control signal corresponding to the first LED lamp via wired or wireless manner, and to accordingly provide a first working parameter of the first LED lamp. Therefore, in the invention, the first control signal can be generated by an electronic equipment with a communication function (for example, a smart phone, a notebook, or a tablet PC) included in the provided illumination system, so as to manipulate the first LED lamp via wired or wireless manner.

Description

Be associated with the illuminator of led lamp

Technical field

The invention relates to a kind of lighting technology, and particularly relevant for a kind of illuminator that is associated with led lamp (LED lamps).

Background technology

Different vendor the led lamp of the research and development corresponding light adjusting controller (dimming controller) of all arranging in pairs or groups separately, and in most basic low order is used, the light adjusting controller of each led lamp roughly all is embedded on the metope, so the user must be in the situation that within reachly just can control led lamp.In addition, in some high-order was used, the light adjusting controller that some led lamp is arranged in pairs or groups also had the function of remote control to form light modulation remote controller (dimming remoter).Yet not only cost is high for these light modulation remote controllers, and to each other can't be fully general.

Summary of the invention

In view of this, the problem of addressing in order to solve prior art, an example embodiment of the present invention provides a kind of illuminator that is associated with led lamp, and it comprises: the first led lamp and the first drive unit with communication function.The first drive unit couples the first led lamp, in order to receiving one first control signal corresponding with the first led lamp by wired or wireless mode, and provides according to this one first running parameter of the first led lamp.

In an example embodiment of the present invention, described illuminator can also comprise: the electronic equipment with communication function and built-in one (cover) interactive applications.Base this, electronic equipment can react on the startup of described interactive applications and receive one first user and input instruction, and changes described the first user and input instruction to produce described the first control signal.In addition, electronic equipment can be by wired or wireless mode to transfer to the first drive unit with described the first control signal.

In an example embodiment of the present invention, described illuminator can also comprise: the second led lamp and the second drive unit with communication function.The second drive unit couples the second led lamp, in order to receiving one second control signal corresponding with the second led lamp by wired or wireless mode, and provides according to this one second running parameter of the second led lamp.

In an example embodiment of the present invention, described electronic equipment can also react on the startup of described interactive applications and receive one second user inputs instruction, and changes described the second user and input instruction to produce described the second control signal.In addition, electronic equipment can be also by wired or wireless mode so that described the second control signal is transferred to the second drive unit.

In an example embodiment of the present invention, electronic equipment can be smart mobile phone, notebook computer or panel computer.With this understanding, electronic equipment can by Bluetooth wireless transmission, WiFi wireless transmission, a WiMAX wireless transmission, Zigbee wireless transmission, infrared and radio transmission, USB (USB) wire transmission at least one of them or combination therebetween to communicate with the first and/or second drive unit.

In an example embodiment of the present invention, the described first and/or second user input instruction can comprise phonetic order, touching instruction, gesture instruction and direction (gravity) sensing instructions at least one of them.

In an example embodiment of the present invention, the first drive unit can carry out the power module that integral module design forms the first led lamp; And second drive unit can carry out the power module that integral module design forms the second led lamp.

Hence one can see that, and the user can produce the led lamp of corresponding control signal to control difference by wired or wireless mode but to have simultaneously identical wired or wireless communication agreement by the electronic equipment (for example: smart mobile phone, notebook computer or panel computer) with a certain wired or wireless communication agreement.Thus, the present invention can solve the problem that prior art is addressed effectively.

For above-mentioned feature and advantage of the present invention can be become apparent, a plurality of embodiment cited below particularly, and accompanying drawing shown in cooperating are described in detail below.

Yet above-mentioned general description and following execution mode only are exemplary and illustrative, and it can not limit the scope that institute of the present invention wish is advocated.

Description of drawings

Accompanying drawing is the part of specification of the present invention shown in following, shows example embodiment of the present invention, and appended graphic description with specification illustrates principle of the present invention.

Fig. 1 is depicted as the schematic diagram of the illuminator (illumination system) 10 of the present invention's one example embodiment;

Fig. 2 A is depicted as the schematic diagram of the drive unit 103-1 with communication function of Fig. 1;

Fig. 2 B is depicted as the schematic diagram of the drive unit 103-2 with communication function of Fig. 1;

Fig. 3 is depicted as the schematic diagram of the illuminator 10 ' of another example embodiment of the present invention;

Fig. 4 is depicted as the schematic diagram of the drive unit with communication function 103 of Fig. 3.

Description of reference numerals:

10,10 ': illuminator;

101-1,101-2: led lamp;

103,103-1,103-2: drive unit;

105: electronic equipment;

107-1,107-2: transducer;

201,201-1,201-2: constant voltage power supply unit;

203-1,203-2,203-1 ', 203-2 ': constant current-supplying unit;

205,205-1,205-2: communication module;

207,207-1,207-2: control unit;

IAP: interactive applications;

CS1, CS2: control signal;

P_work1, P_work2: running parameter;

V1, V2:(are adjustable) operating voltage;

I1, I2:(are adjustable) operating current;

L1, L2: state parameter;

Vac: alternating voltage;

Vdc: dc rated voltage;

UIN1, UIN2: the user inputs instruction.

Embodiment

Now will in detail with reference to example embodiment of the present invention, the example of described example embodiment be described in the accompanying drawings.

In addition, all possibility parts, the element of use same numeral in drawings and the embodiments/the identical or similar portions of member representative.

Fig. 1 is depicted as the schematic diagram of the illuminator (illumination system) 10 of the present invention's one example embodiment.See also Fig. 1, illuminator 10 comprises at least: led lamp (LED lamps) 101-1 and 101-2, have drive unit (driving devices) 103-1 and the 103-2 of communication function (communication function), and the electronic equipment (electronic equipment) 105 with communication function and built-in one (cover) interactive applications (interactive application) iAP.Wherein, dispose respectively transducer 107-1 and 107-2 in order to sensing light fixture state among led lamp 101-1 and the 101-2.

In this example embodiment, electronic equipment 105 can be smart mobile phone (smart phone), notebook computer (notebook) or panel computer (tablet PC), but is not restricted to this.And, electronic equipment 105 can be at least by bluetooth (Bluetooth) wireless transmission, WiFi wireless transmission, WiMAX wireless transmission, Zigbee wireless transmission, infrared ray (infrared rays) wireless transmission, USB (USB) wire transmission at least one of them or combination therebetween (but all being not restricted to this) to communicate/to link up with drive unit 103-1 and/or 103-2.

Electronic equipment 105 can react on the startup (activation) of interactive applications iAP and receive the user come from the outside and input instruction UIN1 (for example: touching instruction and/or phonetic order and/or gesture instruction and/or direction (gravity) sensing instructions are (namely, phonetic order, the touching instruction, gesture instruction and direction (gravity) sensing instructions at least one of them, but be not restricted to this, and direction wherein (gravity) sensing instructions for example can be by gyroscope, the multiaxis sensing apparatus such as accelerator meter or light sensing apparatus produce), and the user that conversion receives inputs instruction UIN1 to produce control signal CS1.And electronic equipment 105 can transfer to drive unit 103-1 with the control signal CS1 that will be produced by wired or wireless mode.With this understanding, drive unit 103-1 with communication function couples led lamp 101-1, in order to receive corresponding with led lamp 101-1 by wired or wireless mode and from the control signal CS1 of electronic equipment 105, and provide according to this running parameter (workingparameter) P_work1 (for example, (adjustable) operating voltage of led lamp 101-1 (adjustable working voltage) V1 with (adjustable) operating current (adjustableworking current) I1) of led lamp 101-1.

Clearer, Fig. 2 A is depicted as the schematic diagram of the drive unit 103-1 with communication function of Fig. 1.Please merge and consult Fig. 1 and Fig. 2 A, drive unit 103-1 comprises: constant voltage power supply unit (constant voltage supplying unit) 201-1, constant current-supplying unit (constantcurrent supplying unit) 203-1, communication module (communication module) 205-1, and control unit (control unit) 207-1.

Constant voltage power supply unit 201-1 is in order to receiving alternating voltage (AC voltage) Vac, and the alternating voltage Vac that receives (for example: the AC-DC conversion) so that dc rated voltage (DC constant voltage) Vdc to be provided is changed.In this example embodiment, constant voltage power supply unit 201-1 can be comprised of bridge rectifier (bridge rectifier) and flyback converter (flyback converter), but is not restricted to this.

Constant current-supplying unit 203-1 is in order to receiving from constant voltage power supply unit 201-1 dc rated voltage Vdc, and the dc rated voltage Vdc that receives (for example: the DC-to-DC conversion) adjustable working voltage V1 and adjustable working electric current I 1 so that led lamp 101-1 to be provided is changed.In this example embodiment, constant current-supplying unit 203-1 can adopt step-down conversion line (buck conversion circuit) to implement, but is not restricted to this.

Communication module 205-1 is in order to receive the control signal CS1 from electronic equipment 105 by wired or wireless mode.In this example embodiment, communication module 205-1 can for the wire communication module of any kenel (for example: the usb communication module, but be not restricted to this) or wireless communication module (for example: Bluetooth wireless communication module, WiFi wireless communication module, WiMAX wireless communication module, Zigbee wireless communication module, infrared and radio communication module, but be not restricted to this).

Control unit 207-1 couples constant voltage power supply unit 201-1, constant current-supplying unit 203-1 and communication module 205-1, in order to react on the control signal CS1 that communication module 205-1 receives and control the running of constant voltage power supply unit 201-1 and constant current-supplying unit 203-1.In this example embodiment, control unit 207-1 can adopt the mode of simulation and/or numeral to control the running of constant voltage power supply unit 201-1 and constant current-supplying unit 203-1, thereby realizes simulation, numeral or pulse-width modulation (PWM) light modulation to led lamp 101-1.

For instance, control unit 207-1 can adopt the mode of numeral to control the running of constant voltage power supply unit 201-1 and constant current-supplying unit 203-1 simultaneously; Perhaps, control unit 207-1 can adopt numeral and the mode of simulation to control respectively the running of constant voltage power supply unit 201-1 and constant current-supplying unit 203-1; Perhaps, control unit 207-1 can adopt simulation and the mode of numeral to control respectively the running of constant voltage power supply unit 201-1 and constant current-supplying unit 203-1; All are looked closely actual design and discuss.

In addition, the transducer 107-1 among the led lamp 101-1 is in order to the state of sensing led lamp 101-1, and the state parameter L1 that led lamp 101-1 is provided according to this is to control unit 207-1.Wherein, can digital mode communicate/link up between the transducer 107-1 among the led lamp 101-1 and the control unit 207-1.With this understanding, control unit 207-1 can transfer to electronic equipment 105 in wired or wireless mode with the state parameter L1 that is received by communication module 205-1, use so that electronic equipment 105 can to the state of led lamp 101-1 (instantly) (for example: running time (operation time), brightness (brightness), colour temperature (color temperature), ON/OFF (ON/OFF) ... etc.) carry out (immediately) monitoring.

On the other hand, electronic equipment 105 can also react on the startup of interactive applications iAP and receive the user who comes from the outside and input instruction UIN2 (for example: touching instruction and/or phonetic order and/or gesture instruction and/or direction (gravity) sensing instructions are (namely, phonetic order, touching instruction, gesture instruction and direction (gravity) sensing instructions at least one of them), but be not restricted to this), and the user that conversion receives inputs instruction UIN2 to produce control signal CS2.And electronic equipment 105 can transfer to drive unit 103-2 with the control signal CS2 that will be produced by wired or wireless mode.With this understanding, drive unit 103-2 with communication function couples led lamp 101-2, in order to receive corresponding with led lamp 101-2 by wired or wireless mode and from the control signal CS2 of electronic equipment 105, and provide according to this running parameter P_work2 (for example, (adjustable) operating voltage V2 of led lamp 101-2 with (adjustable) operating current I2) of led lamp 101-2.

Clearer, Fig. 2 B is depicted as the schematic diagram of the drive unit 103-2 with communication function of Fig. 1.Please merge and consult Fig. 1, Fig. 2 A and Fig. 2 B, the structure of drive unit 103-2 and drive unit 103-1 is similar, and it comprises: constant voltage power supply unit 201-2, constant current-supplying unit 203-2, communication module 205-2, and control unit 207-2.

Constant voltage power supply unit 201-2 is in order to receiving alternating voltage Vac, and the alternating voltage Vac that receives (for example: the AC-DC conversion) so that dc rated voltage (DCconstant voltage) Vdc to be provided is changed.Similarly, constant voltage power supply unit 201-2 can be comprised of bridge rectifier and flyback converter, but is not restricted to this.

Constant current-supplying unit 203-2 is in order to receiving the dc rated voltage Vdc from constant voltage power supply unit 201-2, and the dc rated voltage Vdc that receives (for example: the DC-to-DC conversion) adjustable working voltage V2 and adjustable working electric current I 2 so that led lamp 101-2 to be provided is changed.Similarly, constant current-supplying unit 203-1 can adopt the step-down conversion line to implement, but is not restricted to this.

Communication module 205-2 is in order to receive the control signal CS2 from electronic equipment 105 by wired or wireless mode.Similarly, communication module 205-2 can for the wire communication module of any kenel (for example: the usb communication module, but be not restricted to this) or wireless communication module (for example: Bluetooth wireless communication module, WiFi wireless communication module, WiMAX wireless communication module, Zigbee wireless communication module, infrared and radio communication module, but be not restricted to this).

Control unit 207-2 couples constant voltage power supply unit 201-2, constant current-supplying unit 203-2 and communication module 205-2, in order to react on the control signal CS2 that communication module 205-2 receives and control the running of constant voltage power supply unit 201-2 and constant current-supplying unit 203-2.Similarly, control unit 207-2 can adopt the mode of simulation and/or numeral to control the running of constant voltage power supply unit 201-2 and constant current-supplying unit 203-2, thereby realizes simulation, numeral or pulse-width modulation (PWM) light modulation to led lamp 101-2.

For instance, control unit 207-2 can adopt the mode of numeral to control the running of constant voltage power supply unit 201-2 and constant current-supplying unit 203-2 simultaneously; Perhaps, control unit 207-2 can adopt numeral and the mode of simulation to control respectively the running of constant voltage power supply unit 201-2 and constant current-supplying unit 203-2; Perhaps, control unit 207-2 can adopt simulation and the mode of numeral to control respectively the running of constant voltage power supply unit 201-2 and constant current-supplying unit 203-2; All are looked closely actual design and discuss.

In addition, the transducer 107-2 among the led lamp 101-2 is in order to the state of sensing led lamp 101-2, and the state parameter L2 that led lamp 101-2 is provided according to this is to control unit 207-2.Wherein, can digital mode communicate/link up between the transducer 107-2 among the led lamp 101-2 and the control unit 207-2.With this understanding, control unit 207-2 can transfer to electronic equipment 105 in wired or wireless mode with the state parameter L2 that is received by communication module 205-2, use so that electronic equipment 105 can to the state of led lamp 101-2 (instantly) (for example: running time, brightness, colour temperature, ON/OFF ... etc.) carry out (immediately) monitoring.

Based on above-mentioned, when the user by operating electronic equipment 105 so that in build interactive applications iAP in the electronic equipment 105 in and be performed/when starting, this moment electronic equipment 105 screen on can show a pattern virtual controlling interface that is specific to led lamp 101-1 and 101-2.Base this, the user as long as by electronic equipment 105 to touch and/or voice and/or gesture and/or direction (gravity) sensing are set, just can the while or distinctly led lamp 101-1 and 101-2 are carried out remote control/shake control.

In other words, when electronic equipment 105 built-in interactive applications iAP be performed/when starting, electronic equipment 105 can be regarded as the virtual light modulation remote controller (virtual dimming remoter) of led lamp 101-1 and 101-2 simultaneously, uses simultaneously or distinctly led lamp 101-1 and 101-2 is carried out remote control/shake control.

For instance, when electronic equipment 105 built-in interactive applications iAP be performed/when starting, the user can be according to demand and by the user that electronic equipment 105 is controlled (for example) led lamp 101-1 with input (for example: via the mode of touching and/or voice and/or gesture and/or direction (gravity) sensing) wish input instruction UIN1 (for example: the ON/OFF of led lamp 101-1, brightness, colour temperature, time, dimming mode ... etc.).

After in case the user that the user controls led lamp 101-1 with the input wish by electronic equipment 105 inputs instruction UIN1, electronic equipment 105 can be changed by the interactive applications iAP that has been activated the user that the user inputs and input instruction UIN1, use and produce control signal CS1, and transfer to drive unit 103-1 by wired or wireless mode (for example: Bluetooth wireless transmission, but be not restricted to this) with the control signal CS1 that will be produced.

In case communication module 205-1 by wired or wireless mode (for example: Bluetooth wireless transmission, but be not restricted to this) obtain the words of the control signal CS1 that comes from electronic equipment 105, then control unit 207-1 will react on the control signal CS1 that communication module 205-1 obtains and control the running of constant voltage power supply unit 201-1 and constant current-supplying unit 203-1, use control constant voltage power supply unit 201-1 dc rated voltage Vdc is provided, and control constant current-supplying unit 203-1 provides adjustable working voltage V1 and the adjustable working electric current I 1 of led lamp 101-1.Wherein, control unit 207-1 is by controlling constant current-supplying unit 203-1 to realize simulation, numeral or pulse-width modulation (PWM) light modulation to led lamp 101-1.

Similarly, when electronic equipment 105 built-in interactive applications iAP be performed/when starting, the user can be according to demand and by the user that electronic equipment 105 is controlled (for example) led lamp 101-2 with input (for example: via the mode of touching and/or voice and/or gesture and/or direction (gravity) sensing) wish input instruction UIN2 (for example: the ON/OFF of led lamp 101-2, brightness, colour temperature, time, dimming mode ... etc.).

After in case the user that the user controls led lamp 101-2 with the input wish by electronic equipment 105 inputs instruction UIN2, electronic equipment 105 can be changed by the interactive applications iAP that has been activated the user that the user inputs and input instruction UIN2, use and produce control signal CS2, and transfer to drive unit 103-2 by wired or wireless mode (for example: Bluetooth wireless transmission, but be not restricted to this) with the control signal CS2 that will be produced.

In case communication module 205-2 by wired or wireless mode (for example: Bluetooth wireless transmission, but be not restricted to this) obtain the words of the control signal CS2 that comes from electronic equipment 105, then control unit 207-2 will react on the control signal CS2 that communication module 205-2 obtains and control the running of constant voltage power supply unit 201-2 and constant current-supplying unit 203-2, use control constant voltage power supply unit 201-2 dc rated voltage Vdc is provided, and control constant current-supplying unit 203-2 provides adjustable working voltage V2 and the adjustable working electric current I 2 of led lamp 101-2.Wherein, control unit 207-2 is by controlling constant current-supplying unit 203-2 to realize simulation, numeral or pulse-width modulation (PWM) light modulation to led lamp 101-2.

Apparently, the user can be by (for example: bluetooth having a certain wired or wireless communication agreement, but be not restricted to this) electronic equipment 105 (for example: smart mobile phone, notebook computer or panel computer) produce the led lamp 101-1/101-2 of corresponding control signal CS1/CS2 to control difference by wired or wireless mode but to have simultaneously identical wired or wireless communication agreement (that is, bluetooth).In other words, communication module 205-1 in drive unit 103-1 and 103-2 and 205-2 are all under the condition of bluetooth communication, because bluetooth communication possesses the function of Auto-matching in coverage, so same electronic equipment 105 can carry out remote control in the different location to different drive unit 103-1 and 103-2 neatly, thereby realize led lamp 101-1 and 101-2 are carried out the purpose that synchronously (synchronous) or asynchronous (asynchronous) controls.

In addition, owing to the transducer 107-1 that disposes among the led lamp 101-1 in order to sensing light fixture state.Add, transducer 107-1 can carry out digital communication/communication with control unit 207-1.Therefore, control unit 207-1 can transfer to electronic equipment 105 with the state parameter L1 of wired or wireless mode autobiography sensor in future 107-1 by communication module 205-1, uses so that electronic equipment 105 can carry out to the state of led lamp 101-1 immediately monitoring (under the condition of electronic equipment 105 wishs to the monitoring state of led lamp 101-1).

Similarly, owing to the transducer 107-2 that disposes among the led lamp 101-2 in order to sensing light fixture state.Add, transducer 107-2 can carry out digital communication/communication with control unit 207-2.Therefore, control unit 207-2 can transfer to electronic equipment 105 with the state parameter L2 of wired or wireless mode autobiography sensor in future 107-2 by communication module 205-2, uses so that electronic equipment 105 can carry out to the state of led lamp 101-2 immediately monitoring (under the condition of electronic equipment 105 wishs to the monitoring state of led lamp 101-2).

On the other hand, above-mentioned example embodiment is to correspond to single led lamp take single drive unit to describe as example, also namely: drive unit 103-1 only corresponds to led lamp 101-1, and drive unit 103-2 only corresponds to led lamp 101-2, but the present invention does not limit this.In other words, in other example embodiment of the present invention, single drive unit can correspond to the led lamp more than 2 or 2.

Clearer, Fig. 3 is depicted as the schematic diagram of the illuminator 10 ' of another example embodiment of the present invention.See also Fig. 3, illuminator 10 ' comprises at least: led lamp 101-1 and 101-2, have the drive unit 103 of communication function, and the electronic equipment 105 with communication function and built-in one (cover) interactive applications iAP.Similarly, dispose respectively transducer 107-1 and 107-2 in order to sensing light fixture state among led lamp 101-1 and the 101-2.

In this example embodiment, electronic equipment 105 can be smart mobile phone, notebook computer or panel computer, but is not restricted to this.And, electronic equipment 105 can be at least by Bluetooth wireless transmission, WiFi wireless transmission, WiMAX wireless transmission, Zigbee wireless transmission, infrared and radio transmission, USB wire transmission at least one of them or combination therebetween (but all being not restricted to this) to communicate/to link up with drive unit 103.

Electronic equipment 105 can react on the startup of interactive applications iAP and receive the user who comes from the outside and (for example: touching instruction and/or phonetic order and/or gesture instruction and/or direction (gravity) sensing instructions input instruction UIN1 and/or UIN2, but be not restricted to this), and the user that receives of conversion inputs instruction UIN1 and/or UIN2 to produce control signal CS1 and/or CS2.And electronic equipment 105 can transfer to drive unit 103 with control signal CS1 and/or the CS2 that will be produced by wired or wireless mode.

With this understanding, drive unit 103 with communication function couples led lamp 101-1 and 101-2, in order to receive with led lamp 101-1 by wired or wireless mode and/or 101-2 is corresponding and from control signal CS1 and/or the CS2 of electronic equipment 105, and the running parameter P_workl that led lamp 101-1 and/or 101-2 be provided according to this (for example, (adjustable) operating voltage V1 of led lamp 101-1 and (adjustable) operating current I1) and/or P_work2 (for example, (adjustable) operating voltage V2 of led lamp 101-2 and (adjustable) operating current I2).

Clearer, Fig. 4 is depicted as the schematic diagram of the drive unit with communication function 103 of Fig. 3.Please merge and consult Fig. 3 and Fig. 4, drive unit 103 comprises: constant voltage power supply unit 201, constant current-supplying unit 203-1 ' and 203-2 ', communication module 205, and control unit 207.

Constant voltage power supply unit 201 is in order to receiving alternating voltage Vac, and the alternating voltage Vac that receives (for example: the AC-DC conversion) so that dc rated voltage Vdc to be provided is changed.In this example embodiment, constant voltage power supply unit 201 can be comprised of bridge rectifier and flyback converter, but is not restricted to this.

Constant current-supplying unit 203-1 ' is in order to receiving the dc rated voltage Vdc from constant voltage power supply unit 201, and the dc rated voltage Vdc that receives (for example: the DC-to-DC conversion) adjustable working voltage V1 and adjustable working electric current I 1 so that led lamp 101-1 to be provided is changed.In addition, constant current-supplying unit 203-2 ' is in order to receiving the dc rated voltage Vdc from constant voltage power supply unit 201, and the dc rated voltage Vdc that receives (for example: the DC-to-DC conversion) adjustable working voltage V2 and adjustable working electric current I 2 so that led lamp 101-2 to be provided is changed.In this example embodiment, constant current-supplying unit 203-1 ' and 203-2 ' all can adopt the step-down conversion line to implement, but are not restricted to this.

Communication module 205 is in order to receive control signal CS1 and/or the CS2 from electronic equipment 105 by wired or wireless mode.In this example embodiment, communication module 205 can for the wire communication module of any kenel (for example: the usb communication module, but be not restricted to this) or wireless communication module (for example: Bluetooth wireless communication module, WiFi wireless communication module, WiMAX wireless communication module, Zigbee wireless communication module, infrared and radio communication module, but be not restricted to this).

Control unit 207 couples constant voltage power supply unit 201, constant current-supplying unit 203-1 ' and 203-2 ' and communication module 205, in order to react on control signal CS1 that communication module 205 receives and/or CS2 and control the running of constant voltage power supply unit 201 and constant current-supplying unit 203-1 ' and/or 203-2 '.In this example embodiment, control unit 207 can adopt the mode of simulation and/or numeral control constant voltage power supply unit 201 and constant current-supplying unit (203-1 ', 203-2 ') running, thus realization is to simulation, numeral or pulse-width modulation (PWM) light modulation of led lamp 101-1 and/or 101-2.

For instance, control unit 207 can adopt the mode of numeral to control the running of constant voltage power supply unit 201 and constant current-supplying unit (203-1 ', 203-2 ') simultaneously; Perhaps, control unit 207 can adopt numeral and the mode of simulation to control respectively the running of constant voltage power supply unit 201 and constant current-supplying unit (203-1 ', 203-2 '); Perhaps, control unit 207 can adopt simulation and the mode of numeral to control respectively the running of constant voltage power supply unit 201 and constant current-supplying unit (203-1 ', 203-2 '); All are looked closely actual design and discuss.

Similarly, control unit 207 or by control constant current-supplying unit (203-1 ', 203-2) to realize simulation, numeral or pulse-width modulation (PWM) light modulation to led lamp (101-1,101-2).

In addition, the transducer 107-1 among the led lamp 101-1 is in order to the state of sensing led lamp 101-1, and the state parameter L1 that led lamp 101-1 is provided according to this is to control unit 207.Wherein, can digital mode communicate/link up between the transducer 107-1 among the led lamp 101-1 and the control unit 207.With this understanding, control unit 207 can transfer to electronic equipment 105 in wired or wireless mode with the state parameter L1 that is received by communication module 205, use so that electronic equipment 105 can to the state of led lamp 101-1 (instantly) (for example: running time, brightness, colour temperature, ON/OFF ... etc.) carry out (immediately) monitoring.

Similarly, the transducer 107-2 among the led lamp 101-2 is in order to the state of sensing led lamp 101-2, and the state parameter L2 that led lamp 101-2 is provided according to this is to control unit 207.Wherein, can digital mode communicate/link up between the transducer 107-2 among the led lamp 101-2 and the control unit 207.With this understanding, control unit 207 can transfer to electronic equipment 105 in wired or wireless mode with the state parameter L2 that is received by communication module 205, use so that electronic equipment 105 can to the state of led lamp 101-2 (instantly) (for example: running time, brightness, colour temperature, ON/OFF ... etc.) carry out (immediately) monitoring.

In other words, control unit 207 can transfer to electronic equipment 105 in wired or wireless mode with state parameter L1 and/or the L2 that is received by communication module 205, uses so that electronic equipment 105 can carry out to the state of led lamp 101-1 and/or 101/2 (instantly) (immediately) monitoring.

Hence one can see that, and drive unit 103 can realize driving the application of 2 led lamps (101-1,101-2) under the framework/condition of single constant voltage power supply unit 201.Certainly, this teaching content of base, this area have usually know the knowledgeable should deduce voluntarily/class releases the execution mode that drive unit 103 drives the led lamp more than 3 or 3 simultaneously, as long as in drive unit 103, set up the constant current-supplying unit of controlled unit 207 controls more than 3 or 3, so also no longer given unnecessary details it at this.

It is worth mentioning that at this, the drive unit of above-mentioned each example embodiment (103,103-1,103-2) all can carry out the integral module design, use and form the exclusive power module (power module) of led lamp (101-1,101-2).Certainly, the drive unit of above-mentioned each example embodiment (103,103-1,103-2) all can carry out the part modularized design.All are looked closely actual design/application demand and discuss.

Even in other example embodiment of the present invention, the transducer (107-1,107-2) that is configured in the led lamp (101-1,101-2) can also be configured to have the ability of resolving voice.Thus, the user can come (directly) to control led lamp (101-1,101-2) by the mode of phonetic entry.Perhaps, the transducer (107-1,107-2) that is configured in the led lamp (101-1,101-2) can also be configured to have the ability of resolving gesture.Thus, the user can come (directly) to control led lamp (101-1,101-2) by the mode of gesture input.Even the transducer (107-1,107-2) that is configured in the led lamp (101-1,101-2) can also be configured to have the ability of parsing direction (gravity) sensing.Thus, the user can be by tilting, shake or the mode of the direction of conversion led lamp (101-1,101-2) coming (directly) to control led lamp (101-1,101-2).

In sum, the user can produce the led lamp of corresponding control signal to control difference by wired or wireless mode but to have simultaneously identical wired or wireless communication agreement by the electronic equipment (for example: smart mobile phone, notebook computer or panel computer) with a certain wired or wireless communication agreement, and can be to the monitoring state of all led lamps.

It should be noted that at last: above each embodiment is not intended to limit only in order to technical scheme of the present invention to be described; Although with reference to aforementioned each embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps some or all of technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the scope of various embodiments of the present invention technical scheme.

Claims (19)

1. an illuminator that is associated with led lamp is characterized in that, comprising:

One first led lamp; And

One has the first drive unit of communication function, couple this first led lamp, in order to receiving one first control signal corresponding with this first led lamp by wired or wireless mode, and provide according to this one first running parameter of this first led lamp.

2. illuminator according to claim 1 is characterized in that, also comprises:

One has the electronic equipment of communication function, and a built-in interactive applications, this electronic equipment react on the startup of this interactive applications and receive one first user inputs instruction, and changes this first user and input instruction producing this first control signal,

Wherein, this electronic equipment by wired or wireless mode so that this first control signal is transferred to this first drive unit.

3. illuminator according to claim 2 is characterized in that, this first running parameter comprises one first adjustable working voltage and one first adjustable working electric current, and this first drive unit comprises:

One first constant voltage power supply unit in order to receiving an alternating voltage, and provides a direct current rated voltage to this alternating voltage conversion;

One first constant current-supplying unit in order to receiving this dc rated voltage, and provides this first adjustable working voltage and this first adjustable working electric current of this first led lamp to this dc rated voltage conversion;

One first communication module is in order to receive this first control signal by wired or wireless mode; And

One first control unit, couple this first constant voltage power supply unit, this first constant current-supplying unit and this first communication module, in order to react on this first control signal that this first communication module receives and control the running of this first constant voltage power supply unit and this first constant current-supplying unit.

4. illuminator according to claim 3 is characterized in that, also comprises:

One second led lamp couples this first drive unit,

Wherein, this first drive unit is also in order to receiving one second control signal corresponding with this second led lamp by wired or wireless mode, and one second running parameter of this second led lamp is provided according to this.

5. illuminator according to claim 4 is characterized in that,

This electronic equipment also reacts on the startup of this interactive applications and receives one second user inputs instruction, and changes this second user and input instruction to produce this second control signal; And

This electronic equipment also by wired or wireless mode so that this second control signal is transferred to this first drive unit.

6. illuminator according to claim 5 is characterized in that, this second running parameter comprises one second adjustable working voltage and one second adjustable working electric current, and this first drive unit also comprises:

One second constant current-supplying unit in order to receiving this dc rated voltage, and provides this second adjustable working voltage and this second adjustable working electric current of this second led lamp to this dc rated voltage conversion,

Wherein, this first communication module is also in order to receiving this second control signal by wired or wireless mode,

Wherein, this first control unit also couples this second constant current-supplying unit, in order to also to react on this second control signal that this first communication module receives and control the running of this second constant current-supplying unit.

7. illuminator according to claim 6 is characterized in that,

This first led lamp comprises a first sensor, and in order to the state of this first led lamp of sensing, and one first state parameter that this first led lamp is provided according to this is to this first control unit;

This second led lamp comprises one second transducer, and in order to the state of this second led lamp of sensing, and one second state parameter that this second led lamp is provided according to this is to this first control unit; And

This first control unit by this first communication module with wired or wireless mode with received this first and/or this second state parameter transfer to this electronic equipment, use so that this electronic equipment can to this first and/or the monitoring state of this second led lamp.

8. illuminator according to claim 6 is characterized in that, this first control unit adopts the mode of simulation and/or numeral to control the running of this first constant voltage power supply unit, this first constant current-supplying unit and this second constant current-supplying unit.

9. illuminator according to claim 3 is characterized in that, also comprises:

One second led lamp; And

One has the second drive unit of communication function, couple this second led lamp, in order to receiving one second control signal corresponding with this second led lamp by wired or wireless mode, and provide according to this one second running parameter of this second led lamp.

10. illuminator according to claim 9 is characterized in that,

This electronic equipment also reacts on the startup of this interactive applications and receives one second user inputs instruction, and changes this second user and input instruction to produce this second control signal; And

This electronic equipment also by wired or wireless mode so that this second control signal is transferred to this second drive unit.

11. illuminator according to claim 10 is characterized in that, this second running parameter comprises one second adjustable working voltage and one second adjustable working electric current, and this second drive unit comprises:

One second constant voltage power supply unit in order to receiving this alternating voltage, and provides this dc rated voltage to this alternating voltage conversion;

One second constant current-supplying unit in order to receiving this dc rated voltage, and provides this second adjustable working voltage and this second adjustable working electric current of this second led lamp to this dc rated voltage conversion;

One second communication module is in order to receive this second control signal by wired or wireless mode; And

One second control unit, couple this second constant voltage power supply unit, this second constant current-supplying unit and this second communication module, in order to react on this second control signal that this second communication module receives and control the running of this second constant voltage power supply unit and this second constant current-supplying unit.

12. illuminator according to claim 11 is characterized in that,

This first led lamp comprises a first sensor, and in order to the state of this first led lamp of sensing, and one first state parameter that this first led lamp is provided according to this is to this first control unit;

This second led lamp comprises one second transducer, and in order to the state of this second led lamp of sensing, and one second state parameter that this second led lamp is provided according to this is to this second control unit;

This first control unit transfers to this electronic equipment in wired or wireless mode with this first state parameter that is received by this first communication module, uses so that this electronic equipment can be to the monitoring state of this first led lamp; And

This second control unit transfers to this electronic equipment in wired or wireless mode with this second state parameter that is received by this second communication module, uses so that this electronic equipment can be to the monitoring state of this second led lamp.

13. illuminator according to claim 11 is characterized in that, this second control unit adopts the mode of simulation and/or numeral to control the running of this second constant voltage power supply unit and this second constant current-supplying unit.

14. illuminator according to claim 9 is characterized in that, this electronic equipment comprises a smart mobile phone, a notebook computer or a panel computer.

15. illuminator according to claim 14, it is characterized in that, this electronic equipment by a Bluetooth wireless transmission, a WiFi wireless transmission, a WiMAX wireless transmission, a Zigbee wireless transmission, infrared and radio transmission, a USB wire transmission at least one of them or combination therebetween to communicate with this first and/or second drive unit.

16. illuminator according to claim 10 is characterized in that, this first and/or this second user input instruction comprise at least phonetic order, touching instruction, gesture instruction and sensing direction instruction at least one of them.

17. illuminator according to claim 5 is characterized in that, this first and/or this second user input instruction comprise at least phonetic order, touching instruction, gesture instruction and sensing direction instruction at least one of them.

18. illuminator according to claim 6 is characterized in that, this first drive unit can carry out the power module that integral module design forms this first led lamp and this second led lamp.

19. illuminator according to claim 11 is characterized in that,

This first drive unit can carry out the power module that integral module design forms this first led lamp; And

This second drive unit can carry out the power module that integral module design forms this second led lamp.

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