CN203884029U - LED light emitting device realizing color and light modulation through light modulator - Google Patents

Abstract

The utility model discloses an LED light emitting device realizing color and light modulation through a light modulator and relates to the LED illumination field. The LED light emitting device comprises an AC input end, the light modulator, a driving circuit, a light coupling circuit and an MCU, wherein the AC input end is connected with the light modulator, the light modulator is respectively connected with the light coupling circuit and the driving circuit, the light coupling circuit and the driving circuit are respectively connected with the MCU, the LED light emitting device further comprises a first LED lamp set and a second LED lamp set, the MCU is connected with the first LED lamp set through a first switch circuit, the MCU is connected with the second LED lamp set through a second switch circuit, and the driving circuit respectively provides power for the MCU, the first LED lamp set and the second LED lamp set. The LED light emitting device realizes color and light modulation through the light modulator, not only saves cost, has a simple line, can be realized without an external circuit and is simple to mount.

Description

A kind of LED light-emitting device of realizing toning light modulation by dimmer

Technical field

The utility model relates to LED lighting field, relates in particular to a kind of LED light-emitting device of realizing toning light modulation by dimmer.

Background technology

Progressively raising along with people's living standard, everybody is more and more higher with pursuit to the yearning of visual experience, traditional incandescent lamp power consumption is larger, by electronic energy-saving lamp, substituted gradually, electricity-saving lamp service time is about 6000 hours, and electricity-saving lamp the inside contains mercury, and after electricity-saving lamp is smashed, the mercury of the inside can distribute in air, meeting serious environment pollution, brings very serious consequence; Then by LED, replaced gradually, the useful life of LED lamp is about 50000 hours; And LED illuminator is in the market controlled a plurality of LED lamps constantly, is mostly single formula switch, be standard-sized sheet or complete shut-down, this simplicity of design is easy to operate, but ubiquity brightness of illumination cannot regulate, light also needs the problems such as standard-sized sheet lamp when slightly dark, is unfavorable for energy-conserving and environment-protective and accurately controls; And in prior art, in a LED illuminating product, can only adjust a kind of light of colour temperature, if need send the light of three kinds of colour temperatures, need to use the LED lamp pearl of three kinds of colour temperatures, the LED of these three kinds of colour temperatures needs three cover raw material, so relatively wastes resource, cost, manpower, material, production hour.

Utility model content

The utility model is for overcoming brightness of illumination in prior art and cannot regulate and the LED of three kinds of colour temperatures needing the raw-material deficiency of three covers that a kind of LED light-emitting device of realizing toning light modulation by dimmer is provided, and this device has and can regulate different brightness and complete the feature that the LED of three kinds of colour temperatures throws light on according to different demands.

The technical solution of the utility model is as follows:

A kind of LED light-emitting device of realizing toning light modulation by dimmer, it is characterized in that: comprise ac input end, dimmer, drive circuit, optically coupled circuit and MCU, described ac input end is connected with dimmer, described dimmer connects respectively at optically coupled circuit and drive circuit, and described optically coupled circuit and drive circuit are all connected with MCU; Also comprise a LED lamp group and the 2nd LED lamp group, described MCU is connected with a LED lamp group by the first switching circuit, MCU is connected with the 2nd LED lamp group by second switch circuit, and described drive circuit is respectively MCU, a LED lamp group and the 2nd LED lamp group driving power is provided.

Above-mentioned drive circuit comprises that interchange turns DC circuit and voltage stabilizing circuit, and described voltage stabilizing circuit input turns DC circuit output with described interchange and is connected.

Above-mentioned the first switching circuit is the first field effect transistor, and second switch circuit is the second field effect transistor;

The positive pole of an above-mentioned LED lamp group and the 2nd LED lamp group is connected with the positive pole of described drive circuit output respectively, the negative pole of a described LED lamp group and the 2nd LED lamp group is connected with the drain electrode of the second field effect transistor with the drain electrode of the first field effect transistor respectively, the source electrode of the source electrode of described the first field effect transistor and the second field effect transistor is connected with the negative pole of described drive circuit output respectively, the grid of described the first field effect transistor is connected to the first pulse-width signal output of described MCU, the grid of described the second field effect transistor is connected to the second pulse-width signal output of MCU.

An above-mentioned LED lamp group and the 2nd LED lamp group comprise respectively the LED lamp of the identical and mutual series connection of quantity, and in a described LED lamp group, the colour temperature of LED lamp is different from the colour temperature of LED lamp in the 2nd LED lamp group.

Above-mentioned voltage stabilizing circuit is low pressure difference linearity integrated regulator.

Above-mentioned voltage stabilizing circuit is connected with the power input of described MCU, and provides operating voltage for described MCU.

The beneficial effects of the utility model: the LED light-emitting device of realizing toning light modulation by dimmer provided by the utility model, realized the LED illumination that a LED light-emitting device completes three kinds of colour temperatures, and the dimmer by the original installation of user's family is realized the adjusting to LED brightness and colour temperature, not only saved cost, circuit is simple, without external circuits, can realize, install simple, and meet different regions user and varying environment lighting demand, be beneficial to the extensive popularization of end user's use and manufacturers produce and LED illuminating product.

Accompanying drawing explanation

Fig. 1 is the theory diagram that the utility model is realized the LED light-emitting device of toning light modulation.

The circuit structure diagram of the LED light-emitting device of the realization toning light modulation that Fig. 2 provides for the utility model.

Embodiment

In order better to illustrate, be now described further the utility model with accompanying drawing in conjunction with the embodiments.

As shown in Fig. 1 to 2, a kind of LED light-emitting device of realizing toning light modulation by dimmer, comprise ac input end 10, dimmer 20, drive circuit 40, optically coupled circuit 30 and MCU50, described ac input end 10 is connected with dimmer 20, described dimmer 20 connects respectively at optically coupled circuit 30 and drive circuit 40, and described optically coupled circuit 30 and drive circuit 40 are all connected with MCU50; Also comprise a LED lamp group 61 and the 2nd LED lamp group 71, described MCU50 is connected with a LED lamp group 61 by the first switching circuit 62, MCU50 is connected with the 2nd LED lamp group 71 by second switch circuit 72, and described drive circuit 40 is respectively MCU50, a LED lamp group 61 and the 2nd LED lamp group 71 driving power is provided;

Drive circuit 40 comprises that interchange turns DC circuit 41 and voltage stabilizing circuit 42, and described voltage stabilizing circuit 42 inputs turn DC circuit 41 outputs with described interchange and are connected;

The first switching circuit 62 is the first field effect transistor, and second switch circuit 72 is the second field effect transistor;

The positive pole of the one LED lamp group 61 and the 2nd LED lamp group 71 is connected with the positive pole of described drive circuit output respectively, the negative pole of a described LED lamp group and the 2nd LED lamp group is connected with the drain electrode of the second field effect transistor 72 with the drain electrode of the first field effect transistor 62 respectively, the source electrode of the source electrode of described the first field effect transistor 62 and the second field effect transistor 72 is connected with the negative pole of described drive circuit 40 outputs respectively, the grid of described the first field effect transistor 62 is connected to the first pulse-width signal output of described MCU50, the grid of described the second field effect transistor 72 is connected to the second pulse-width signal output of MCU50.

As described in Figure 2, the described alternating current input 10 of this LED light-emitting device is three phase mains, comprises live wire, zero line and ground wire, photoelectric coupling circuit 30 1 input pins connect the zero line of ac input end 10, another input connects the live wire of ac input end 10 through dimmer 20, a wherein output pin of photoelectric coupling circuit 30 connects the signal input part of MCU50, that is to say the AD1 port of MCU50MCU, this AD1 port is an analog-to-digital conversion port of MCU50, the signal of exporting due to photoelectric coupling circuit 30 is square-wave signal, therefore, for the ease of follow-up, by MCU50, switching circuit is carried out to break-make control, this output of photoelectric coupling circuit 30 need connect this AD1 port of MCU50, so that analog signal is converted to digital signal, another output of photoelectric coupling circuit 30 connects the negative pole of output end of drive circuit 30.

Optically coupled circuit 30 to MCU50 AD1 port output the production process of square-wave signal as follows: optically coupled circuit 30 is connected with ac input end, when the positive half cycle of alternating current flows through light-emitting diode in optically coupled circuit 30 inputs anodal, this light-emitting diode starts luminous, make the triode conducting of the inside, the signal of AD1 port becomes electronegative potential from original high potential, when alternating current is that negative half period is when flow through, light-emitting diode quits work, light-emitting diode is not luminous makes not conducting of triode, and then make the signal of AD1 port become high potential from original electronegative potential, the continuous like this input pin that has alternating current to flow through optically coupled circuit, make output pin output square-wave signal.

In the present embodiment, drive circuit 40 comprises that an interchange turns DC circuit 41 and voltage stabilizing circuit 42, wherein, the input that interchange turns DC circuit 41 is connected with described ac input end 10, and interchange turns the input that the output of DC circuit 41 connects voltage stabilizing circuit 42, the output of voltage stabilizing circuit 42 connects the voltage input end of MCU50, for MCU50 provides operating voltage Vcc, this voltage stabilizing circuit 42 is low pressure difference linearity integrated regulator, the alternating current that interchange turns DC circuit 41 provides ac input end 10 is converted to direct current, and produce constant pressure and flow signal, the size of voltage and current can turn DC circuit 41 by interchange and regulate, the output that interchange turns DC circuit 41 is also connected with the 2nd LED lamp group 71 with a LED lamp group 61, for a LED lamp group 51 and the 2nd LED lamp group 71 provide working power.

In the present embodiment, the one LED lamp group 61 and the 2nd LED lamp group 71 all include the LED lamp of several series connection, and in a LED lamp group 61, the quantity of LED lamp is identical with the quantity of LED string in the 2nd LED lamp group 71, and in a LED lamp group 61, the colour temperature of LED lamp is not identical with the colour temperature of LED lamp in the 2nd LED lamp group 71.In the utility model, the colour temperature of LED lamp has three kinds of selections, comprise cold white light, warm light and warm white, therefore, the collocation of colour temperature in the present embodiment just has three kinds of selections, the present embodiment is selected one group of white LED lamp and one group of warm white LED lamp, choosing LED11-LED1N is cold white light, LED21-LED2N is warm white, in the one LED lamp group 61, LED11 is connected with the positive pole of drive circuit 40 outputs respectively with the positive pole of LED21 in the 2nd LED lamp group 71, and the output head anode of drive circuit 40 that is to say and exchanges the positive pole that turns DC circuit 41 outputs.

In the present embodiment, the first switching circuit 62 and second switch circuit 72 are field effect transistor, be respectively the first field effect transistor and the second field effect transistor, the D utmost point of the first field effect transistor is connected with the negative pole of the 2nd LED lamp group 71 with a described LED lamp group 61 respectively with the D utmost point of the second field effect transistor, at this, the D utmost point of the first field effect transistor is connected with the negative pole of LED1N and LED2N respectively with the D utmost point of the second field effect transistor, the S utmost point of described the first field effect transistor is connected with the negative pole of described drive circuit output respectively with the S utmost point of the second field effect transistor, the G utmost point of described the first field effect transistor is connected with the first pulse-width signal output of described MCU40, the G utmost point of the second field effect transistor is connected with the second pulse-width signal output of described MCU40, the first pulse-width signal output and the second pulse-width signal output of described MCU40 provide pulse-width signal to the first field effect transistor and the second field effect transistor respectively, to control the break-make of the first field effect transistor and the second field effect transistor, the first pulse-width signal output and the second pulse-width signal output of MCU40 uninterruptedly produce pulse-width signal, drive the first field effect transistor or the second field effect transistor conducting, driving a LED lamp group 61 to send cold white light or the 2nd LED lamp group 71, to send warm light or a LED lamp group 61 and the 2nd LED lamp group 71 simultaneously luminous.

By above-mentioned LED light-emitting device, can realize the conversion of toning light modulation degree of lightening, concrete implementation procedure comprises the following steps:

S100: described drive circuit 40 is connected external AC, starts working, to described MCU50, a LED lamp group 61 and the 2nd LED lamp group 71 output constant pressure and flow signals;

S200: described optically coupled circuit 30 is to the control signal input output square-wave signal of described MCU50, and through described MCU50 to described the first switching circuit 62 output pulse width modulation signals, drive described the first switching circuit 62 conductings, and control a described LED lamp group 61 white light that feels cold; The button size of adjusting in the case dimmer 20 changes the square-wave signal pulsewidth of photoelectrical coupler 30 outputs, thereby realizes luminous bright dark of LED;

S300: when LED feels cold white light, by dimmer 20 switch interrupts alternating currents, make the square-wave signal of control signal input of described MCU50 in low level, and to described second switch circuit 72 output pulse width modulation signals, drive described second switch circuit 72 conductings, control described the 2nd LED lamp group 71 and send out light warm; The button size of adjusting in the case dimmer 20 changes the square-wave signal pulsewidth of photoelectrical coupler 30 outputs, thereby realizes luminous bright dark of LED;

S400: when LED sends out the warm light time, again by dimmer 20 switch interrupts alternating currents, make the square-wave signal of control signal input of described MCU50 in low level, to described the first switching circuit 62 and second switch circuit 72, export the pulse-width signal of half separately simultaneously, drive described the first switching circuit 62 and 72 conductings of second switch circuit, control a described LED lamp group 61 and the 2nd 62 whiles of LED lamp group luminous, to produce warm white; The button size of adjusting dimmer 20 changes the square-wave signal pulsewidth of photoelectrical coupler 30 outputs, thereby realizes luminous bright dark of LED;

S500: when LED sends out warm white, again by dimmer 20 switch interrupts alternating currents, make the square-wave signal of control signal input of described MCU50 in low level and to described the first switching circuit 62 output pulse width modulation signals, drive described the first switching circuit 62 conductings, control a described LED lamp group 61 white light that feels cold; Get back to step S100, a circulation finishes.

Below in conjunction with specific embodiment, above-mentioned steps is described in detail and is described.

After this LED light-emitting device is switched on for the first time, drive circuit 40 is started working, be respectively MCU50 operating voltage is provided, and optically coupled circuit 30 is also exported square-wave signal to the signal input port (AD1 port) of MCU50, the square-wave signal of now MCU50 judgement AD1 port is in high potential, the first pulse-width signal output output pulse width modulation signal, drive the first field effect transistor 62 conductings, and the second field effect transistor 72 cut-offs, the one LED lamp group 61 is lighted, send cold white light, the button size of adjusting in the case dimmer 20 changes the square-wave signal pulsewidth of photoelectrical coupler 30 outputs, thereby realize luminous bright or dark of LED.

If LED light-emitting device need be switched to and be sent out light warm by the white light that feels cold, by dimmer 20 switches, disconnect alternating current, and recover alternating current in 1 seconds, now the square-wave signal of AD1 port is in electronegative potential, the second pulse-width signal output of MCU50 produces pulse-width signal, drive the second field effect transistor 72 conductings, and the first field effect transistor 62 cut-offs, now, the 2nd LED lamp group 71 is lit, send warm light, the button size of adjusting in the case dimmer 20 changes the square-wave signal pulsewidth of photoelectrical coupler 30 outputs, thereby realize luminous bright dark of LED.

If LED light-emitting device need be switched to and be sent out warm white and white light by a warm white simultaneously, by dimmer 20 switches, disconnect alternating current, and recover alternating current in very short time in as 1 seconds, now the square-wave signal of AD1 port is in electronegative potential, the first pulse-width signal output and the second pulse-width signal output of MCU50 produce pulse-modulated signal simultaneously, and the intensity of each pulse-modulated signal is half while only having one to send pulse-modulated signal, now, the first field effect transistor 62 and the second field effect transistor 72 driven conductings simultaneously, and then control a LED lamp group 61 and the 2nd LED lamp group 71 is simultaneously luminous, that is to say that a LED lamp group 61 sends cold white light, the 2nd LED lamp group 71 is sent warm light, but their intensity is for only sending cold white light or only sending half that warms up the light time, therefore, they are the luminous warm white that produces simultaneously.Because the actual power of LED lamp now can be less than independent power when luminous of every group of LED lamp group, therefore the temperature of two groups of LED lamp groups also can decline, and then increased the useful life of LED lamp group, the button size of adjusting dimmer changes the square-wave signal pulsewidth of photoelectrical coupler output, thereby realizes luminous bright dark of LED.

If and now need LED light-emitting device to be switched to by send out warm light and cold white light simultaneously the white light that feels cold, by dimmer 20 switches, disconnect alternating current, and recover alternating current in 1 seconds, now the square-wave signal of AD1 port is in electronegative potential, the first pulse-width signal output output pulse width modulation signal, drive the first field effect transistor 62 conductings, and the second field effect transistor 72 cut-offs, the one LED lamp group 61 is lighted, send cold white light, the button size of adjusting dimmer changes the square-wave signal pulsewidth of photoelectrical coupler output, thereby realize luminous bright or dark of LED, get back to the first pattern, a circulation finishes.

Like this, by constantly controlling the size of dimmer 20 switch interrupts alternating currents and adjustment dimmer 20 buttons, realized the light that LED light-emitting device sends different-colour and also can have realized light modulation simultaneously, and every control alternating-current switch disconnects alternating current once, LED light-emitting device just sends a kind of light of colour temperature, the light that LED light-emitting device is sent switches between different-colour, three kinds of colour temperature LED illuminations have been realized, and in conversion different-colour process, the power of LED all remains unchanged, save power consumption and also reduced cost, but in adjusting the big or small process of dimmer, the size that the size of power consumption is adjusted with dimmer determines, realize the bright dark of LED illuminating lamp simultaneously.

LED light-emitting device of the present utility model can be widely used in lighting field, comprise bulb lamp, Down lamp, ceiling light, fluorescent tube, Panel light, Ceiling light, PAR lamp, corn lamp, oil lamp, bulkhead lamp capable etc., external form is along with the requirement of light fixture can arbitrarily change.

Claims (6)

1. One kind by dimmer realize toning light modulation LED light-emitting device, it is characterized in that: comprise ac input end, dimmer, drive circuit, optically coupled circuit and MCU, described ac input end is connected with dimmer, described dimmer connects respectively at optically coupled circuit and drive circuit, and described optically coupled circuit and drive circuit are all connected with MCU; Also comprise a LED lamp group and the 2nd LED lamp group, described MCU is connected with a LED lamp group by the first switching circuit, MCU is connected with the 2nd LED lamp group by second switch circuit, and described drive circuit is respectively MCU, a LED lamp group and the 2nd LED lamp group driving power is provided.
2. 2. the LED light-emitting device of realizing toning light modulation by dimmer as claimed in claim 1, is characterized in that: described drive circuit comprises that interchange turns DC circuit and voltage stabilizing circuit, and described voltage stabilizing circuit input turns DC circuit output with described interchange and is connected.
3. 3. the LED light-emitting device of realizing toning light modulation by dimmer as claimed in claim 1, is characterized in that: described the first switching circuit is the first field effect transistor, and described second switch circuit is the second field effect transistor;

   The positive pole of a described LED lamp group and the 2nd LED lamp group is connected with the positive pole of described drive circuit output respectively, the negative pole of a described LED lamp group and the 2nd LED lamp group is connected with the drain electrode of the second field effect transistor with the drain electrode of the first field effect transistor respectively, the source electrode of the source electrode of described the first field effect transistor and the second field effect transistor is connected with the negative pole of described drive circuit output respectively, the grid of described the first field effect transistor is connected to the first pulse-width signal output of described MCU, the grid of described the second field effect transistor is connected to the second pulse-width signal output of MCU.
4. As claimed in claim 1 by dimmer realize toning light modulation LED light-emitting device, it is characterized in that: a described LED lamp group and the 2nd LED lamp group comprise respectively the LED lamp of the identical and mutual series connection of quantity, and in a described LED lamp group, the colour temperature of LED lamp is different from the colour temperature of LED lamp in the 2nd LED lamp group.
5. 5. the LED light-emitting device of realizing toning light modulation by dimmer as claimed in claim 2, is characterized in that: described in it, voltage stabilizing circuit is low pressure difference linearity integrated regulator.
6. 6. the LED light-emitting device of realizing toning light modulation by dimmer as claimed in claim 2, is characterized in that: described voltage stabilizing circuit is connected with the power input of described MCU, and provides operating voltage for described MCU.