CN204795710U - Various lamp driving circuit and on -vehicle button device in a poor light - Google Patents

Abstract

The utility model discloses a various lamp driving circuit and on -vehicle button device in a poor light, this circuit includes power supply, a plurality of various lamp module pieces, a controller, a drive circuit for being based on red luminotron was adjusted to a control signal's of the first output pin of controller output duty cycle size luminous degree, a 2nd drive circuit for being based on green luminotron was adjusted to the 2nd control signal's of the second output pin of controller output duty cycle size luminous degree, reach in the 3rd control signal's of the output of the third output pin according to the controller big or small the 3rd drive circuit who adjusts the luminous degree of blue luminotron of duty cycle. The utility model has the advantages of circuit structure is simple, the cost is lower.

Description

Color lamp drive circuit and vehicle-mounted press key backlight device

Technical field

The utility model relates to electronic circuit technology field, particularly relates to a kind of color lamp drive circuit and vehicle-mounted press key backlight device.

Background technology

Key-press backlight be a kind of by irradiancy of colored light enable button at night or light is dark time, still can show the technology of its keypress function mark.The field of this technology application is relatively more extensive, and is particularly applied on automobile many at present, and such as, button on onboard navigation system panel just adopts key-press backlight technology.

The color lamp of existing key-press backlight adopts the color lamp driving chip of specialty to light to drive color lamp usually, and sends the light of different colours.But, the color lamp limited amount that in this drive circuit, a color lamp driving chip drives, when on panel, color lamp is more, the color lamp driving chip quantity of needs will increase, and causes cost up; Further, when be not adopt same color lamp driving chip go to drive multiple color lamp time, because signal is asynchronous and current difference between each color lamp, can there is the poor problem of consistency in display effect.

Utility model content

Main purpose of the present utility model is to provide a kind of color lamp drive circuit, is intended to the cost reducing color lamp drive circuit, and improves the consistency of color lamp display.

For achieving the above object, the color lamp drive circuit that the utility model provides comprises power supply, multiple color lamp module and controller, and color lamp module described in each comprises the red luminotron, green luminotron and the blue-light-emitting pipe that are connected with described power supply respectively; Described color lamp drive circuit also comprises the first drive circuit, the second drive circuit and the 3rd drive circuit, the input of described first drive circuit is connected with the first output pin of described controller, and the output of described first drive circuit is connected with the red luminotron of color lamp module described in each; The input of described second drive circuit is connected with the second output pin of described controller, and the output of described second drive circuit is connected with the green luminotron of color lamp module described in each; The input of described 3rd drive circuit is connected with the 3rd output pin of described controller, and the output of described 3rd drive circuit is connected with the blue-light-emitting pipe of color lamp module described in each;

Wherein, described first drive circuit, for the luminous degree of red luminotron described in the duty ratio size adjustment of the first control signal that exports according to the first output pin of described controller;

Described second drive circuit, for the luminous degree of green luminotron described in the duty ratio size adjustment of the second control signal that exports according to the second output pin of described controller;

Described 3rd drive circuit, for the luminous degree of blue-light-emitting pipe described in the duty ratio size adjustment of the 3rd control signal that exports according to the 3rd output pin of described controller.

Preferably, described red luminotron, green luminotron and blue-light-emitting pipe described first drive circuit, the second drive circuit and the 3rd drive circuit respectively output low level signal time light.

Preferably, described first drive circuit comprises the first switching tube, the base stage of described first switching tube is connected with the first control pin of described controller, the output of very described first drive circuit of current collection of described first switching tube, the grounded emitter of described first switching tube; Described second drive circuit comprises second switch pipe, and the base stage of described second switch pipe is connected with the second control pin of described controller, the output of very described second drive circuit of current collection of described second switch pipe, the grounded emitter of described second switch pipe; Described 3rd drive circuit comprises the 3rd switching tube, and the base stage of described 3rd switching tube is connected with the 3rd control pin of described controller, the output of very described 3rd drive circuit of current collection of described 3rd switching tube, the grounded emitter of described 3rd switching tube.

Preferably, described first drive circuit also comprises the first resistance and the second resistance, and the base stage of described first switching tube is connected with the first output of described controller through described first resistance; The base stage of described first switching tube is also connected to ground through described second resistance; Described second drive circuit comprises also the 3rd resistance and the 4th resistance, and the base stage of described second switch pipe is connected with the second output of described controller through described 3rd resistance; The base stage of described second switch pipe is also connected to ground through described 4th resistance; Described 3rd drive circuit also comprises the 5th resistance and the 6th resistance, and the base stage of described 3rd switching tube is connected with the 3rd output of described controller through described 5th resistance; The base stage of described 3rd switching tube is also connected to ground through described 6th resistance.

Preferably, described controller is PWM controller or single-chip microcomputer.

Preferably in, described red luminotron is red light emitting diodes, and described green luminotron is green LED, and described blue-light-emitting pipe is blue LED; The anode of the anode of described red luminotron, the anode of described green luminotron and described blue-light-emitting pipe connects respectively at described power supply, the negative electrode of described red luminotron is connected with the first drive end of described drive circuit, the negative electrode of described green luminotron is connected with the second drive end of described drive circuit, and the negative electrode of described blue-light-emitting pipe is connected with the 3rd drive end of described drive circuit.

Preferably, described color lamp drive circuit also comprises the first current limiting element, the second current limiting element and the 3rd current limiting element, and described first current limiting element is connected between the negative electrode of described red luminotron and the output of described first drive circuit; Described second current limiting element is connected between the negative electrode of described green luminotron and the output of described second drive circuit; Described 3rd current limiting element is connected between the negative electrode of described blue-light-emitting pipe and the output of described 3rd drive circuit.

Preferably, described first current limiting element, the second current limiting element and the 3rd current limiting element are respectively resistance.

Preferably, described color lamp module also comprises the focusing lampshade covered on described red luminotron, green luminotron and blue-light-emitting pipe.

In addition, for achieving the above object, the utility model also provides a kind of vehicle-mounted press key backlight device, and described vehicle-mounted press key backlight device comprises color lamp drive circuit as above; Described color lamp drive circuit comprises power supply, multiple color lamp module and controller, and color lamp module described in each comprises the red luminotron, green luminotron and the blue-light-emitting pipe that are connected with described power supply respectively; Described color lamp drive circuit also comprises the first drive circuit, the second drive circuit and the 3rd drive circuit, the input of described first drive circuit is connected with the first output pin of described controller, and the output of described first drive circuit is connected with the red luminotron of color lamp module described in each; The input of described second drive circuit is connected with the second output pin of described controller, and the output of described second drive circuit is connected with the green luminotron of color lamp module described in each; The input of described 3rd drive circuit is connected with the 3rd output pin of described controller, and the output of described 3rd drive circuit is connected with the blue-light-emitting pipe of color lamp module described in each; Wherein, described first drive circuit, for the luminous degree of red luminotron described in the duty ratio size adjustment of the first control signal that exports according to the first output pin of described controller; Described second drive circuit, for the luminous degree of green luminotron described in the duty ratio size adjustment of the second control signal that exports according to the second output pin of described controller; Described 3rd drive circuit, for the luminous degree of blue-light-emitting pipe described in the duty ratio size adjustment of the 3rd control signal that exports according to the 3rd output pin of described controller.

The utility model is by arranging power supply, controller, include red luminotron, multiple color lamp modules of green luminotron and blue-light-emitting pipe, for first drive circuit of luminous degree of red luminotron described in the duty ratio size adjustment of the first control signal that exports according to the first output pin of described controller, 3rd drive circuit of luminous degree of blue-light-emitting pipe described in the second drive circuit for the luminous degree of green luminotron described in the duty ratio size adjustment of the second control signal that exports according to the second output pin of described controller and the duty ratio size adjustment in the 3rd control signal exported according to the 3rd output pin of described controller, achieve the color lamp drive circuit that a kind of circuit cost is lower, further, because three drive circuits are based on the control of same controller, signal is synchronous, is disturbed few, the color that each color lamp module is shown and the consistency of brightness better.

Accompanying drawing explanation

Fig. 1 is the circuit block diagram of the utility model color lamp drive circuit preferred embodiment, wherein only illustrates a color lamp module;

Fig. 2 is the electrical block diagram of the utility model color lamp drive circuit.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of color lamp drive circuit, is applicable to various electronic equipment or instrument, such as, be used as the colored backlight of button.

With reference to Fig. 1 and Fig. 2, in one embodiment, this color lamp drive circuit comprises power supply 100 (replacing indicating with VCC in Fig. 2), multiple color lamp module 200 (replacing indicating with D1, D2 to Dn in Fig. 2) and controller 300, and color lamp module 200 described in each comprises red luminotron LED1, the green luminotron LED2 and blue-light-emitting pipe LED3 that are connected with described power supply 100 respectively.

For realizing light modulation, to make red luminotron LED1, the backlight of the light combinations different colours that green luminotron LED2 and blue-light-emitting pipe LED3 sends, described color lamp drive circuit also comprises the first drive circuit 400 of the luminous degree of red luminotron LED1 described in the duty ratio size adjustment for the first control signal of the first output pin output according to described controller 300, 3rd drive circuit 600 of luminous degree of blue-light-emitting pipe LED3 described in the second drive circuit 500 for the luminous degree of green luminotron LED2 described in the duty ratio size adjustment of the second control signal that exports according to the second output pin of described controller 300 and the duty ratio size adjustment in the 3rd control signal exported according to the 3rd output pin of described controller 300.

Particularly, the input of described first drive circuit 400 is connected with the first output pin of described controller 300, and the output of described first drive circuit 400 is connected with the red luminotron LED1 of color lamp module 200 described in each; The input of described second drive circuit 500 is connected with the second output pin of described controller 300, and the output of described second drive circuit 500 is connected with the green luminotron LED2 of color lamp module 200 described in each; The input of described 3rd drive circuit 600 is connected with the 3rd output pin of described controller 300, and the output of described 3rd drive circuit 600 is connected with the blue-light-emitting pipe LED3 of color lamp module 200 described in each.

The principle that the present embodiment realizes is, the red, green, blue three primary colors light in various degree sent when being lighted by red luminotron LED1, green luminotron LED2 and blue-light-emitting pipe LED3 is mutually mixed and realizes the light source display of different colours.

In the present embodiment, the quantity of color lamp module 200 does not limit, and can be configured according to actual needs.Wherein, red luminotron LED1, green luminotron LED2 and blue-light-emitting pipe LED3 can adopt the various luminescent device that can realize its corresponding color, the LED1 of red luminotron described in this preferred embodiment is red light emitting diodes, described green luminotron LED2 is green LED, and described blue-light-emitting pipe LED3 is blue LED; The anode of the anode of described red luminotron LED1, the anode of described green luminotron LED2 and described blue-light-emitting pipe LED3 connects respectively at described power supply 100, the negative electrode of described red luminotron LED1 is connected with the first drive end of described drive circuit, the negative electrode of described green luminotron LED2 is connected with the second drive end of described drive circuit, and the negative electrode of described blue-light-emitting pipe LED3 is connected with the 3rd drive end of described drive circuit.

In the present embodiment, described controller 300 can adopt PWM controller 300 or chip microcontroller, modulated by controller 300 and produce the pulse-width signal of different duty, and exported by the first output pin of controller 300 and the second output pin and the 3rd output pin.Therefore, when the change in duty cycle of the control signal that an output pin of controller 300 exports, the electric current that the red luminotron LED1 corresponding with this output pin, green luminotron LED2 and blue-light-emitting pipe LED3 flow through will respective change, make luminosity (degree) the also respective change of red luminotron LED1, green luminotron LED2 and blue-light-emitting pipe LED3 luminescence accordingly, therefore, the color light control of different colours is realized by the luminosity of control red luminotron LED1, green luminotron LED2 and blue-light-emitting pipe LED3.Wherein, the electric current flow through is larger, and the light that luminous tube sends is stronger, and namely brightness is larger.It should be noted that, the LED1 of red luminotron described in the present embodiment, green luminotron LED2 and blue-light-emitting pipe LED3 described first drive circuit 400, second drive circuit 500 and the 3rd drive circuit 600 respectively output low level signal time light and then realize color lamp display.

Particularly, described first drive circuit 400 comprises the first switching tube Q1, the base stage of described first switching tube Q1 is connected with the first control pin of described controller 300, the output of very described first drive circuit 400 of current collection of described first switching tube Q1, the grounded emitter of described first switching tube Q1; Described second drive circuit 500 comprises second switch pipe Q2, the base stage of described second switch pipe Q2 is connected with the second control pin of described controller 300, the output of very described second drive circuit 500 of current collection of described second switch pipe Q2, the grounded emitter of described second switch pipe Q2; Described 3rd drive circuit 600 comprises the 3rd switching tube Q3, the base stage of described 3rd switching tube Q3 is connected with the 3rd control pin of described controller 300, the output of very described 3rd drive circuit 600 of current collection of described 3rd switching tube Q3, the grounded emitter of described 3rd switching tube Q3.Wherein, first switching tube Q1, second switch pipe Q2 and the 3rd switching tube Q3 can adopt triode to realize, utilize the signal amplification of triode and change flow through red, green, electric current on blue three luminous tubes, like this when the change in duty cycle of the control signal that controller 300 exports, first switching tube Q1, the electric current that second switch pipe Q2 and the 3rd switching tube Q3 control the corresponding luminous tube be connected flows through is with regard to respective change, make red like this, green, the luminosity of blue three luminous tubes is different, red by different luminosity, green, the combination of blue three luminous tubes, the display of different colours lamp can be realized.

The utility model color lamp drives road by arranging power supply 100, controller 300, include red luminotron LED1, multiple color lamp modules 200 of green luminotron LED2 and blue-light-emitting pipe LED3, for first drive circuit 400 of luminous degree of red luminotron LED1 described in the duty ratio size adjustment of the first control signal that exports according to the first output pin of described controller 300, 3rd drive circuit 600 of luminous degree of blue-light-emitting pipe LED3 described in the second drive circuit 500 for the luminous degree of green luminotron LED2 described in the duty ratio size adjustment of the second control signal that exports according to the second output pin of described controller 300 and the duty ratio size adjustment in the 3rd control signal exported according to the 3rd output pin of described controller 300, achieve the color lamp drive circuit that a kind of circuit cost is lower, further, because three drive circuits are based on the control of same controller 300, signal is synchronous, is disturbed few, the color that each color lamp module 200 is shown and the consistency of brightness better.

Further, the first drive circuit 400 described in above-described embodiment also comprises the first resistance R1 and the second resistance R2, and the base stage of described first switching tube Q1 is connected with the first output of described controller 300 through described first resistance R1; The base stage of described first switching tube Q1 is also connected to ground through described second resistance R2.Wherein the first resistance R1 and the second resistance R2 forms the biasing circuit of the first switching tube Q1, for the conducting of the first switching tube Q1 provides bias voltage.

Similarly, described second drive circuit 500 also comprises and the base stage of the 3rd resistance R3 and the 4th resistance R4, described second switch pipe Q2 is connected with the second output of described controller 300 through described 3rd resistance R3 further; The base stage of described second switch pipe Q2 is also connected to ground through described 4th resistance R4.Wherein the 3rd resistance R3 and the 4th resistance R4 forms the biasing circuit of second switch pipe Q2, for the conducting of second switch pipe Q2 provides bias voltage.

And similarly, described 3rd drive circuit 600 also comprises the 5th resistance R5 and the 6th resistance R6 further, the base stage of described 3rd switching tube Q3 is connected with the 3rd output of described controller 300 through described 5th resistance R5; The base stage of described 3rd switching tube Q3 is also connected to ground through described 6th resistance R6.Wherein the 5th resistance R5 and the 6th resistance R6 forms the biasing circuit of the 3rd switching tube Q3, for the conducting of the 3rd switching tube Q3 provides bias voltage.

Further, described color lamp drive circuit also comprises the first current limiting element Rr, the second current limiting element Rg and the 3rd current limiting element Rb, and described first current limiting element Rr is connected between the negative electrode of described red luminotron LED1 and the output of described first drive circuit 400; Described second current limiting element Rg is connected between the negative electrode of described green luminotron LED2 and the output of described second drive circuit 500; Described 3rd current limiting element Rb is connected between the negative electrode of described blue-light-emitting pipe LED3 and the output of described 3rd drive circuit 600.Wherein, described first current limiting element Rr, the second current limiting element Rg and the 3rd current limiting element Rb are preferably cost comparatively low resistance.

Further, described color lamp module 200 also comprises the focusing lampshade (figure does not indicate) covered on described red luminotron LED1, green luminotron LED2 and blue-light-emitting pipe LED3.A focusing lampshade is established by the red luminotron LED1 in color lamp module 200 described in each, green luminotron LED2 and blue-light-emitting pipe LED3 upper cover, three coloured light sent when red luminotron LED1, green luminotron LED2 and blue-light-emitting pipe LED3 are lighted complete colour mixture in this focusing lampshade, cast out again, avoid the problems such as colour lamplight is uneven, colour cast, improve chromaticity.

In conjunction with above-described embodiment, below circuit theory of the present utility model is further elaborated:

The color lamp module 200 of the utility model circuit adopts pours in down a chimney mode power, and each luminous tube when namely the output of color lamp module 200 is low level in color lamp module 200 is just lighted.Wherein, controller 300 is pre-configured by software, the pulse-width modulation control signal (PWM ripple) of duty ratio is preset in order to generate when the work of energising, then the first corresponding switching tube Q1 is exported to by the port of correspondence, the base stage of second switch pipe Q2 and the 3rd switching tube Q3, make the first switching tube Q1, second switch pipe Q2 and the 3rd switching tube Q3 opens and the RGB luminous tube of control correspondence is lighted, and now the first switching tube Q1, second switch pipe Q2 and the 3rd switching tube Q3 is operated in magnifying state, when the duty ratio of control signal is different, first switching tube Q1, second switch pipe Q2 is just not identical with the base current of the 3rd switching tube Q3, make the electric current respective change of its collector and emitter, realize regulating with this electric current flowing through luminous tube, and reach the degree of the light luminance regulating RGB luminous tube to send.Understandablely be, when duty ratio due to the control signal of controller 300 output is different, the luminous degree varies sample of the luminous tube of its correspondence, therefore, according to the principle of red green blue tricolor synthesis color, each color lamp module 200 configurable sends light that is identical or different colours.Such as RGB light is mixed into white, and red blue light line is mixed into purple, and red-green glow line is mixed into yellow, and bluish-green light is mixed into cyanic colours etc.

Be understandable that, the utility model color lamp drive circuit passes through to adopt triode Direct driver redgreenblue luminous tube, without the need to professional driving chip; Further, when designing multiple color lamp module 200, also only needing three triodes to go to drive, therefore, significantly having saved circuit hardware cost; In addition, the utility model circuit adopts triode Direct driver, compared with the corresponding circuit driving a color lamp of employing professional driving chip, the consistency of electric current is better, brightness and solid colour after the light mixing that RGB luminous tube in each color lamp module 200 is sent, have good visual effect.

The utility model also provides a kind of vehicle-mounted press key backlight device, and in one embodiment, described vehicle-mounted press key backlight device comprises above-mentioned color lamp drive circuit; The detailed construction of described color lamp drive circuit can refer to above-described embodiment, repeats no more herein; Be understandable that, owing to employing above-mentioned color lamp drive circuit in vehicle-mounted press key backlight device, therefore, the embodiment of this vehicle-mounted press key backlight device comprises whole technical schemes of the whole embodiment of above-mentioned color lamp drive circuit, and the technique effect reached is also identical, does not repeat them here.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a color lamp drive circuit, comprises power supply, multiple color lamp module and controller, and color lamp module described in each comprises the red luminotron, green luminotron and the blue-light-emitting pipe that are connected with described power supply respectively; It is characterized in that, described color lamp drive circuit also comprises the first drive circuit, the second drive circuit and the 3rd drive circuit, the input of described first drive circuit is connected with the first output pin of described controller, and the output of described first drive circuit is connected with the red luminotron of color lamp module described in each; The input of described second drive circuit is connected with the second output pin of described controller, and the output of described second drive circuit is connected with the green luminotron of color lamp module described in each; The input of described 3rd drive circuit is connected with the 3rd output pin of described controller, and the output of described 3rd drive circuit is connected with the blue-light-emitting pipe of color lamp module described in each;

Wherein, described first drive circuit, for the luminous degree of red luminotron described in the duty ratio size adjustment of the first control signal that exports according to the first output pin of described controller;

Described second drive circuit, for the luminous degree of green luminotron described in the duty ratio size adjustment of the second control signal that exports according to the second output pin of described controller;

Described 3rd drive circuit, for the luminous degree of blue-light-emitting pipe described in the duty ratio size adjustment of the 3rd control signal that exports according to the 3rd output pin of described controller.

2. color lamp drive circuit as claimed in claim 1, is characterized in that, described red luminotron, green luminotron and blue-light-emitting pipe described first drive circuit, the second drive circuit and the 3rd drive circuit respectively output low level signal time light.

3. color lamp drive circuit as claimed in claim 1, it is characterized in that, described first drive circuit comprises the first switching tube, the base stage of described first switching tube is connected with the first control pin of described controller, the output of very described first drive circuit of current collection of described first switching tube, the grounded emitter of described first switching tube; Described second drive circuit comprises second switch pipe, and the base stage of described second switch pipe is connected with the second control pin of described controller, the output of very described second drive circuit of current collection of described second switch pipe, the grounded emitter of described second switch pipe; Described 3rd drive circuit comprises the 3rd switching tube, and the base stage of described 3rd switching tube is connected with the 3rd control pin of described controller, the output of very described 3rd drive circuit of current collection of described 3rd switching tube, the grounded emitter of described 3rd switching tube.

4. color lamp drive circuit as claimed in claim 3, it is characterized in that, described first drive circuit also comprises the first resistance and the second resistance, and the base stage of described first switching tube is connected with the first output of described controller through described first resistance; The base stage of described first switching tube is also connected to ground through described second resistance; Described second drive circuit comprises also the 3rd resistance and the 4th resistance, and the base stage of described second switch pipe is connected with the second output of described controller through described 3rd resistance; The base stage of described second switch pipe is also connected to ground through described 4th resistance; Described 3rd drive circuit also comprises the 5th resistance and the 6th resistance, and the base stage of described 3rd switching tube is connected with the 3rd output of described controller through described 5th resistance; The base stage of described 3rd switching tube is also connected to ground through described 6th resistance.

5. color lamp drive circuit as claimed in claim 1, it is characterized in that, described controller is PWM controller or single-chip microcomputer.

6. the color lamp drive circuit as described in claim 1 to 5 any one, is characterized in that, described red luminotron is red light emitting diodes, and described green luminotron is green LED, and described blue-light-emitting pipe is blue LED; The anode of the anode of described red luminotron, the anode of described green luminotron and described blue-light-emitting pipe connects respectively at described power supply, the negative electrode of described red luminotron is connected with the first drive end of described drive circuit, the negative electrode of described green luminotron is connected with the second drive end of described drive circuit, and the negative electrode of described blue-light-emitting pipe is connected with the 3rd drive end of described drive circuit.

7. color lamp drive circuit as claimed in claim 6, described color lamp drive circuit also comprises the first current limiting element, the second current limiting element and the 3rd current limiting element, and described first current limiting element is connected between the negative electrode of described red luminotron and the output of described first drive circuit; Described second current limiting element is connected between the negative electrode of described green luminotron and the output of described second drive circuit; Described 3rd current limiting element is connected between the negative electrode of described blue-light-emitting pipe and the output of described 3rd drive circuit.

8. color lamp drive circuit as claimed in claim 7, described first current limiting element, the second current limiting element and the 3rd current limiting element are respectively resistance.

9. color lamp drive circuit as claimed in claim 1, it is characterized in that, described color lamp module also comprises the focusing lampshade covered on described red luminotron, green luminotron and blue-light-emitting pipe.

10. a vehicle-mounted press key backlight device, is characterized in that, described vehicle-mounted press key backlight device comprises the color lamp drive circuit as described in claim 1 to 9 any one.