CN201718092U - Lamp lighting device utilizing uniform alternating current to drive light-emitting diodes - Google Patents

Abstract

The utility model provides a lamp lighting device utilizing uniform alternating current to drive light-emitting diodes, which is applied in more than two groups of light-emitting diode modules connected in parallel, a current equalizing element with the same inductance or capacitance is connected before each light-emitting diode module in series, each light-emitting diode module comprises a group consisting of a first polar light-emitting diode lamp string and a second polar light-emitting diode lamp string connected in parallel, and alternating current voltage is received through the current equalizing elements, thereby alternately driving the first polar light-emitting diode lamp strings and the second polar light-emitting diode lamp strings to light. The lamp lighting device utilizes the impedance difference between the current equalizing elements and the light-emitting diodes to provide uniform and stable current for the light-emitting diode modules which are connected in parallel, thereby achieving the effect of leading the brightness to be uniform.

Description

Utilize the ignition device of even alternating current driven for emitting lights diode

Technical field

The relevant a kind of ignition device that utilizes even alternating current driven for emitting lights diode of the utility model, particularly about a kind of AC driving and equal fluid element of utilizing so that the electric current of each LED light string of flowing through is identical, to reach the balance point circuit for lamp.

Background technology

Because light-emitting diode (light emitting diode, LED) have that response speed is fast, energy-conservation, safety, the life-span is long and multiple advantages such as volume is little, make many manufacturers begin to develop the LED-backlit source, replace cold cathode fluorescent lamp (Cold Cathode Fluorescent Lamp, CCFL), LED becomes photoelectric cell indispensable in the daily life already at present, make with the material progress in the higher epoch of the brightness of LED in informatization highly, the application of LED is also more and more wider, is received to main flow by backlight and field of display gradually at present.

Generally speaking, if with light-emitting diode lamp tube as back light, the backlight of electronic equipment is to utilize many light-emitting diode lamp tubes in parallel.Because light-emitting diode lamp tube is formed line source by point-source of light, therefore need use many light-emitting diodes, and each light-emitting diode can produce a little difference because of processing procedure, and making can be different by the electric current of each light-emitting diode, so the problem of brightness irregularities is arranged.Light-emitting diode lamp tube uses DC power supply to drive at present, in order to make the brightness equalization of each root light-emitting diode lamp tube, must on each root light-emitting diode lamp tube, install switch element additional, come control flows identical, to solve the problem of brightness irregularities through the direct current of each light-emitting diode; Yet the method still causes the increase on the cost.

In view of this, the utility model proposes a kind of ignition device that utilizes even alternating current driven for emitting lights diode then, is present in those disappearances in the prior art with improvement.

Summary of the invention

Main purpose of the present utility model is to provide a kind of ignition device that utilizes even alternating current driven for emitting lights diode, allows fixing alternating current each LED light string of flowing through, to reach the uniformity of light-emitting diode luminance.

For achieving the above object, the utility model provides a kind of ignition device that utilizes even alternating current driven for emitting lights diode, comprising:

At least two light-emitting diode (LED) modules, each this light-emitting diode (LED) module comprise the first polarity LED light string and the second polarity LED light string of one group of parallel connection; And

At least two equal fluid elements, each this equal fluid element is electrically connected each this light-emitting diode (LED) module, this equal fluid element receives the alternating voltage of a sine wave, comes this first polarity LED light string of driven and this second polarity LED light string to light a lamp by this alternating voltage.

During enforcement, this two equal fluid element is a current sharing inductor.

During enforcement, this two equal fluid element is a current-sharing electric capacity.

During enforcement, the ignition device of the even alternating current driven for emitting lights of utilization described in the utility model diode, more comprise a resonant circuit, this resonant circuit is electrically connected two these equal fluid elements, this resonant circuit receives a square wave pulse wave signal, and be this alternating voltage with this square wave pulse wave signal filter resonance, this alternating voltage is provided give two these equal fluid elements.

During enforcement, this resonant circuit is a half-bridge resonant circuit, comprises a resonant capacitance and a resonant inductance, and this resonant inductance is series at this resonant capacitance and two these equal fluid elements.

During enforcement, this resonant circuit is a half-bridge resonant circuit, comprises a resonant capacitance and a resonant inductance, and this resonant inductance is connected behind this resonant capacitance, is parallel to two these equal fluid elements again.

During enforcement, this resonant circuit is a full-bridge resonant circuit, comprises two resonant capacitances and two resonant inductances, and each this resonant inductance is series at each this resonant capacitance and two these equal fluid elements respectively.

During enforcement, this resonant circuit is a full-bridge resonant circuit, comprises two resonant capacitances and two resonant inductances, and each this resonant inductance is parallel to this light-emitting diode (LED) module after being series at each this resonant capacitance respectively again.

During enforcement, the ignition device of the even alternating current driven for emitting lights of utilization described in the utility model diode more comprises a transformer, and this transformer comprises primary side and secondary side, this resonant circuit is positioned at this primary side, and two these equal fluid elements and two these light-emitting diode (LED) modules are positioned at this secondary side.

During enforcement, when this alternating voltage is output as positive half cycle voltage, drives this first LED light string and light a lamp, when this alternating voltage is output as negative half period voltage, drives this second LED light string and light a lamp.

Compared with prior art, the utility model provides a kind of ignition device that utilizes even alternating current driven for emitting lights diode, comprise at least two light-emitting diode (LED) modules and at least two equal fluid elements, each light-emitting diode (LED) module comprises the first polarity LED light string and the second polarity LED light string of one group of parallel connection, each equal fluid element is electrically connected each light-emitting diode (LED) module, all fluid element receives the alternating voltage of a sine wave, comes the driven first polarity LED light string and the second polarity LED light string to light a lamp by alternating voltage.

Beneath by the appended graphic explanation in detail of specific embodiment cooperation, when the effect that is easier to understand the purpose of this utility model, technology contents, characteristics and is reached.

Description of drawings

Fig. 1 is circuit framework figure of the present utility model;

Fig. 2 is the schematic diagram of half-bridge resonance ignition device of the present utility model;

Fig. 3 is the full-bridge resonance of the present utility model schematic representation of apparatus of lighting a lamp;

Fig. 4 uses the schematic diagram of first embodiment that current sharing inductor lights a lamp for the utility model;

Fig. 5 uses the schematic diagram of second embodiment that current sharing inductor lights a lamp for the utility model;

Fig. 6 uses the schematic diagram of the 3rd embodiment that current sharing inductor lights a lamp for the utility model;

Fig. 7 uses the schematic diagram of first embodiment that current-sharing electric capacity lights a lamp for the utility model;

Fig. 8 uses the schematic diagram of second embodiment that current-sharing electric capacity lights a lamp for the utility model;

Fig. 9 uses the schematic diagram of the 3rd embodiment that current-sharing electric capacity lights a lamp for the utility model;

Figure 10 is the schematic diagram that the utlity model has the ignition device of transformer.

Description of reference numerals: 10-light-emitting diode (LED) module; The equal fluid element of 12-; The 14-first polarity LED light string; The 16-second polarity LED light string; The 18-resonant capacitance; The 20-resonant inductance; The 22-current sharing inductor; 26-current-sharing electric capacity; The 28-transformer; The 30-primary side; The 32-secondary side.

Embodiment

See also Fig. 1, be circuit framework figure of the present utility model.Ignition device comprises at least two light-emitting diode (LED) module 10 and at least two equal fluid elements 12, each light-emitting diode (LED) module 10 comprises the first polarity LED light string 14 and the second polarity LED light string 16 of one group of parallel connection, and its both polarity are opposite, and wherein LED light string is connected in series by many light-emitting diodes and forms.Two current sharing inductors that two equal fluid elements 12 are same inductance value or two current-sharing electric capacity of identical capacitance values, each equal fluid element 12 is electrically connected each light-emitting diode (LED) module 10, all fluid element 12 receives the alternating voltage of a sine wave, comes the driven first polarity LED light string and the second polarity LED light string to light a lamp by alternating voltage.Because all the resistance value of fluid element is much larger than the resistance value of light-emitting diode more than 3 times, by this, first polarity LED light string 14 that passes through and the lamp string of the second polarity LED light string 16 stream are mainly determined by the cross-pressure of equal fluid element 12 and light-emitting diode (LED) module 10, so the resistance difference between every string LED light string almost can be left in the basket.Therefore, the electric current of each LED light string all can equate, reaches the even effect of brightness.Effectively solve prior art and the problem of brightness irregularities and aberration is arranged because of current unevenness causes light-emitting diode.

See also Fig. 2, its is different with Fig. 1: set up a half-bridge resonant circuit, it comprises a resonant capacitance 18 and a resonant inductance 20, and resonant inductance 20 is series between resonant capacitance 18 and the equal fluid element 12.The half-bridge resonance circuit receives one of high frequency square wave input and exchanges pulse wave signal, and the fundamental frequency of interchange pulse wave signal is close with the resonance frequency of resonant capacitance 18 and resonant inductance 20, therefore after resonant capacitance 18 and resonant inductance 20 resonance filter the high-frequency signal composition, can reduce the loss of circuit element and the problem of reduction electromagnetic interference, and after filter resonance, produce an alternating voltage of sine wave or ladder type ripple, the first polarity LED light string 14 of the positive half cycle driven forward bias of alternating voltage being exported by equal fluid element 12 is luminous, the second polarity LED light string 16 of the negative half period driven forward bias that alternating voltage is exported is luminous, can finish by this to utilize to exchange the purpose that input comes the driven light-emitting diode lighting.Except above-mentioned application half-bridge resonance circuit, as shown in Figure 3, set up a full-bridge resonant circuit, it comprises two resonant capacitances 18 and two resonant inductances 20, the two resonant inductances 20 equal fluid element 12 of connecting respectively, distinguish series resonance electric capacity 18 again, be applied to a plurality of light-emitting diode (LED) module 10 in parallel, for example large scale screen or video wall etc.

Two current sharing inductors that at least two above-mentioned equal fluid elements 12 are same inductance value or two current-sharing electric capacity of identical capacitance values, see also Fig. 4, in the present embodiment, at least two equal fluid elements are the example explanation with two current sharing inductors 22, it is between resonant capacitance 18 and light-emitting diode (LED) module 10, and resonant capacitance 18 and current sharing inductor 22 form the resonant circuit of the function of tool resonator, filter, in this embodiment, with two groups of light-emitting diode (LED) modules 10 in parallel is the example explanation, be in series with a current sharing inductor 22 in each group light-emitting diode (LED) module 10, and each current sharing inductor 22 is identical inductance value.Wherein each group light-emitting diode (LED) module 10 has the first polarity LED light string 14 and the second polarity LED light string 16 in parallel.Certainly also visual demand is set up a plurality of current sharing inductors 22 and is arranged in pairs or groups to organize the backlights that light-emitting diode (LED) modules 10 in parallel are for example made large-sized display more.Resonant circuit receives one of high frequency square wave input and exchanges pulse wave signal, after resonant capacitance 18 and current sharing inductor 22 resonance filter the high-frequency signal composition, produces an alternating voltage of sine wave or trapezoidal wave.Because the resistance value of current sharing inductor 22 needs resistance value much larger than light-emitting diode more than 1.5 times, therefore the electric current by the first polarity LED light string 14 and the second polarity LED light string 16 is mainly determined by the cross-pressure of current sharing inductor 22 and light-emitting diode (LED) module 10.When multi-group light-emitting diode module 10 was connected in parallel driving simultaneously, as long as current sharing inductor 22 sense values are fixed, the electric current of each LED light string all can equate.In other words, the first polarity LED light string 14 of the positive half cycle driven forward bias of exporting when alternating voltage is luminous, the second polarity LED light string 16 of the negative half period driven forward bias that alternating voltage is exported is luminous, in driven is lit a lamp process, can be because of the electric current unanimity of each LED light string, can reach the even effect of brightness, and then effectively solve prior art and the problem of brightness irregularities and aberration is arranged because of current unevenness causes light-emitting diode.

See also Fig. 5, its is different: set up a resonant inductance 20 and be connected in series with resonant capacitance 18 with Fig. 4.Resonant inductance 20, resonant capacitance 18 and the current sharing inductor 22 common resonant circuits that form reach filter function.Because current sharing inductor 22 is when the light-emitting diode (LED) module 10 of many group parallel connections, the equivalent inductance value that participates in resonance can descend rapidly, cause resonance frequency to be difficult to utilize resonant capacitance 18 to adjust, so after adding resonant inductance 20, resonance frequency can be done large-scale frequency adjustment by the inductance value of adjusting resonant inductance 20.Please consult Fig. 6 simultaneously, series resonance with resonant capacitance 18 and resonant inductance 20 formation, be replaced with by resonant inductance 20 and resonant capacitance 18 formed parallel resonances, because series resonant circuit there is no boost function, when therefore using antiresonant circuit to replace series resonant circuit, can make circuit that boost function is arranged.

See also Fig. 7, itself and Fig. 4 difference are two current sharing inductors 22 are replaced as two current-sharing electric capacity 26, and resonant capacitance 18 is replaced as resonant inductance 20 to reach the effect of capacitor and inductor harmonic conversion.Use current-sharing electric capacity 26, can make the required inductance number in the 4th figure integrated circuit be reduced to an inductance from several inductance.Because inductance is the coiling element, cost is higher, utilizes current-sharing electric capacity 26 as equal fluid element, can effectively reduce cost, increases product competitiveness.

See also Fig. 8, its is different: set up a resonant capacitance 18 and be connected in series with resonant inductance 20 with Fig. 7.Resonant capacitance 18, resonant inductance 20 and the current-sharing electric capacity 26 common resonant circuits that form reach filter function.Because current-sharing electric capacity 26 is when the light-emitting diode lamp module 10 of many group parallel connections, the equivalent capacitance value that participates in resonance can rise rapidly, cause resonance frequency to be difficult to adjust, add resonant capacitance 18 after, resonance frequency can be done in a big way adjustment by the capacitance of adjusting resonant capacitance 18.Please consult Fig. 9 simultaneously, series resonance with resonant capacitance 18 and resonant inductance 20 formation, be replaced with by resonant inductance 20 and resonant capacitance 18 formed parallel resonances, because series resonant circuit there is no boost function, when therefore using antiresonant circuit to replace series resonant circuit, can make circuit that boost function is arranged.

No matter the above embodiments are serial or parallel connection resonance AC driving lamp circuits, all can set up a transformer, as the function of voltage transitions and isolation signals (for example high-frequency signal or noise etc.).Deriving what have transformer at this circuit framework with the 4th figure is example explanation, as shown in figure 10, sets up a transformer 28, and it has primary side 30 and secondary side 32.Utilize the primary side 30 of transformer 28 to use as resonant inductance, and the resonant circuit of the function that forms the tool resonator, filter of connecting with resonant capacitance 18, the light-emitting diode (LED) module 10 of two groups of parallel connections is positioned at secondary side 32, and light-emitting diode (LED) module 10 is in series with current sharing inductor 22.Resonant circuit receives and exchanges pulse wave signal, after filter resonance, produce alternating voltage, when the input ac voltage of primary side 30 be on the occasion of, the input ac voltage of then responding to secondary side 32 also on the occasion of, in other words, when input voltage is positive half cycle, the upper end of the secondary side 32 of transformer 28 is for just, the lower end is for negative, after transformer 28 carried out alternating voltage voltage transitions and isolates high-frequency signal, alternating current current sharing inductor 22 to the first polarity LED light string 14 of forward bias of flowing through was lit a lamp with driving.When input ac voltage is negative half period, the upper end of the secondary side 32 of transformer 28 is for negative, the lower end is for just, after transformer 28 carried out alternating voltage voltage transitions and isolates high-frequency signal, alternating current current sharing inductor 22 to the second polarity LED light string 16 of forward bias of flowing through was lit a lamp with driving; Can finish by this to utilize and exchange the purpose that input comes the driven light-emitting diode lighting.Moreover the first polarity LED light string 14 that passes through and the electric current of the second polarity LED light string 16 are mainly determined by the cross-pressure of current sharing inductor 22 and light-emitting diode (LED) module 10.Therefore, when the multi-group light-emitting diode module is connected in parallel when driving simultaneously, as long as current sharing inductor 22 sense values fix, the electric current of each LED light string all can equate, uses to reach the effect that the ac driven light-emitting diodes of deciding electric current is lit a lamp.

Above-described embodiment only is explanation technological thought of the present utility model and characteristics, its purpose makes the personage who has the knack of this skill can understand content of the present utility model and is implementing according to this, when can not with qualification claim of the present utility model, promptly the equalization of doing according to the spirit that the utility model disclosed generally changes or modifies, and must be encompassed in the claim of the present utility model.

Claims (10)

1. an ignition device that utilizes even alternating current driven for emitting lights diode is characterized in that, comprising:

At least two light-emitting diode (LED) modules, each this light-emitting diode (LED) module comprise the first polarity LED light string and the second polarity LED light string of one group of parallel connection; And

At least two equal fluid elements, each this equal fluid element is electrically connected each this light-emitting diode (LED) module, this equal fluid element receives the alternating voltage of a sine wave, comes this first polarity LED light string of driven and this second polarity LED light string to light a lamp by this alternating voltage.

2. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 1 diode is characterized in that, this two equal fluid element is a current sharing inductor.

3. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 1 diode is characterized in that, this two equal fluid element is a current-sharing electric capacity.

4. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 1 diode, it is characterized in that, more comprise a resonant circuit, this resonant circuit is electrically connected two these equal fluid elements, this resonant circuit receives a square wave pulse wave signal, and be this alternating voltage with this square wave pulse wave signal filter resonance, this alternating voltage is provided give two these equal fluid elements.

5. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 4 diode, it is characterized in that, this resonant circuit is a half-bridge resonant circuit, comprises a resonant capacitance and a resonant inductance, and this resonant inductance is series at this resonant capacitance and two these equal fluid elements.

6. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 4 diode, it is characterized in that this resonant circuit is a half-bridge resonant circuit, comprise a resonant capacitance and a resonant inductance, this resonant inductance is connected behind this resonant capacitance, is parallel to two these equal fluid elements again.

7. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 4 diode, it is characterized in that, this resonant circuit is a full-bridge resonant circuit, comprises two resonant capacitances and two resonant inductances, and each this resonant inductance is series at each this resonant capacitance and two these equal fluid elements respectively.

8. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 4 diode, it is characterized in that, this resonant circuit is a full-bridge resonant circuit, comprise two resonant capacitances and two resonant inductances, each this resonant inductance is parallel to this light-emitting diode (LED) module after being series at each this resonant capacitance respectively again.

9. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 4 diode, it is characterized in that, more comprise a transformer, this transformer comprises primary side and secondary side, this resonant circuit is positioned at this primary side, and two these equal fluid elements and two these light-emitting diode (LED) modules are positioned at this secondary side.

10. the ignition device of the even alternating current driven for emitting lights of utilization as claimed in claim 1 diode, it is characterized in that, when this alternating voltage is output as positive half cycle voltage, driving this first LED light string lights a lamp, when this alternating voltage is output as negative half period voltage, drives this second LED light string and light a lamp.

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