CN101093643A - Homogeneous current circuit - Google Patents

Abstract

A current equalized circuit is prepared for electric-connecting each first balance transformer separately to each lamp tube and series-connecting multiple first balance transformer in sequence.

Description

Flow equalizing circuit

Technical field

The present invention is about a kind of flow equalizing circuit, especially in regard to a kind of flow equalizing circuit of fluorescent tube.

Background technology

The application of flat-panel screens in recent years is more and more universal, and wherein (LiquidCrystal Display LCD) is the main flow in market with LCD again.Along with the technical development of LCD, be demand in response to the actual use of large scale, (ColdCathode Fluorescent Lamp, CCFL) quantity must increase, so that sufficient brightness to be provided as the cold cathode fluorescent lamp pipe of backlight in its use.For example, if LCD increases to 40 constantly, its required fluorescent tube quantity may increase to more than 30.But when fluorescent tube quantity increased, the brightness between each fluorescent tube was easy to generate uneven phenomenon, and known technology is with impedance matching or adding balancing transformer solves this problem.

As shown in Figure 1, a kind of drive system 1 of known cold cathode fluorescent lamp pipe comprises one drive circuit 11, a main-transformer 12, a voltage regulation capacitor 13, a plurality of adjustment capacitor 14, a plurality of cold cathode fluorescent lamp pipe 15 and a feedback circuit 16.One power supply Vin inputs to this driving circuit 11, by these main-transformer 12 its voltage levels of conversion, and it is luminous via this a plurality of cold cathode fluorescent lamp pipe 15 of these voltage regulation capacitor 13 burning voltage rear drives, this feedback circuit 16 is according to one of them voltage or electric current of this a plurality of cold cathode fluorescent lamp pipe 15, control this driving circuit 11 and adjust the power supply Vin that is supplied to this main-transformer 12, with this electric current of adjusting these a plurality of cold cathode fluorescent lamp pipes 15 to change luminosity.In order to allow the luminosity equalization of these a plurality of cold cathode fluorescent lamp pipes 15, known technology makes each cold cathode fluorescent lamp pipe 15 impedance matching to add these a plurality of adjustment capacitors 14, thereby the electric current of each cold cathode fluorescent lamp pipe 15 will be identical and send the light of equal brightness.Yet, after this method must be measured the impedance of each cold cathode fluorescent lamp pipe 15 earlier, can enough select these suitably big or small a plurality of adjustment capacitors 14 to realize impedance matching; In addition, get over for a long time when the quantity of fluorescent tube, needed adjustment capacitor is also many more, makes the measurement of fluorescent tube and the selection of capacitor get over complicated.

Fig. 2 is the drive system 1 ' of another kind of known cold cathode fluorescent lamp pipe, be to be electrically connected between a plurality of cold cathode fluorescent lamp pipes 15 of this main-transformer 12 and this capacitor 18 and a balancing transformer 17 with Fig. 1 difference, this balancing transformer 17 has a plurality of coils 171, the number of turn of each coil 171 is identical and in pairs, so the size of current that each coil 171 flows out is all identical.One end of each coil 171 is connected to this main-transformer 12 via this capacitor 18 jointly, and the other end distinctly connects a cold cathode fluorescent lamp pipe 15, so the electric current of each cold cathode fluorescent lamp pipe 15 will be identical.Yet under this kind structure, the volume of this balancing transformer 17 is not only excessive, and when fluorescent tube quantity more for a long time, coil 171 quantity of this balancing transformer 17 are also many more and be not easy coupling, thereby cause the current-sharing poor effect easily.

Fig. 3 is again the drive system 1 of another kind of known cold cathode fluorescent lamp pipe "; be this drive system 1 with Fig. 1 difference " have a plurality of main-transformers 12, each main-transformer 12 is in order to drive two cold cathode fluorescent lamp pipes 15, and this two cold cathode fluorescent lamps pipe 15 comes current-sharing by a balancing transformer 19, guarantees that with this this two cold cathode fluorescent lamps pipe 15 drives via onesize electric current and produces the light of equal brightness.Therefore, the impedance matching, lamp current also can rely on balancing transformer and current-sharing to each fluorescent tube except relying on adjustment capacitor 14.Yet, when fluorescent tube quantity more for a long time, this drive system 1 " in also need more adjustment capacitor 14, each adjusts capacitor 14 also needs the more time to adjust and proofread and correct with each balancing transformer 19.

Therefore, how a kind of flow equalizing circuit of cold cathode fluorescent lamp pipe is provided, avoids the generation of the problems referred to above and improve above-mentioned shortcoming, make the current-sharing effect promoting of the drive system of cold cathode fluorescent lamp pipe according to this, guarantee the brightness unanimity of each fluorescent tube with this, real is important problem.

Summary of the invention

Because above-mentioned problem, purpose of the present invention is for providing a kind of flow equalizing circuit of fluorescent tube, to strengthen the current-sharing effect.

For reaching above-mentioned purpose, according to a kind of flow equalizing circuit of the present invention by a power drives with a plurality of lamp tube current of balance, this flow equalizing circuit comprises a plurality of first balancing transformers, respectively these a plurality of first balancing transformers are electrically connected respectively these a plurality of fluorescent tubes respectively, and these a plurality of first balancing transformers are connected in series in regular turn.

From the above, because of have the balancing transformer of serial connection each other according to a kind of flow equalizing circuit of the present invention.Compare with known technology, the present invention can make the drive current of fluorescent tube at least two balancing transformers of flowing through, and increases the flow through number of times of balancing transformer of drive current with this, to strengthen the current-sharing effect.

Description of drawings

Fig. 1 to Fig. 3 is the synoptic diagram of the drive system of known cold cathode fluorescent lamp pipe;

Fig. 4 and Fig. 5 are for according to a kind of flow equalizing circuit of preferred embodiment of the present invention and be applied to the synoptic diagram of a drive system;

Fig. 6 to Fig. 8 is for according to the another kind of flow equalizing circuit of preferred embodiment of the present invention and be applied to the synoptic diagram of a drive system; And

Fig. 9 is for according to the another kind of again flow equalizing circuit of preferred embodiment of the present invention and be applied to the synoptic diagram of a drive system.

The component symbol explanation:

1,1 ', 1 ": drive system 11: driving circuit

12: main-transformer 13: voltage regulation capacitor

14: adjust capacitor 15: the cold cathode fluorescent lamp pipe

16: feedback circuit 17: balancing transformer

171: coil 18: capacitor

19: balancing transformer

2,2 ', 2 ": drive system 21: driving circuit

22: main-transformer 23: voltage regulation capacitor

24: fluorescent tube 25: feedback circuit

3,3 ', 3 ": flow equalizing circuit 31,32: balancing transformer

311,321: primary side 312,322: secondary side

A: the first end B: second end

C: the 3rd end D: the 4th end

E: five terminal F: the 6th end

G: the 7th end H: the 8th end

Vin: power supply

Embodiment

Hereinafter with reference to relevant drawings, a kind of flow equalizing circuit according to preferred embodiment of the present invention is described.

As shown in Figure 4, a kind of flow equalizing circuit 3 according to preferred embodiment of the present invention is applied to a drive system 2, this drive system 2 can be applicable to a backlight module, and comprises one drive circuit 21, at least one main-transformer 22, at least one voltage regulation capacitor 23, this flow equalizing circuit 3, a plurality of fluorescent tube 24 and a feedback circuit 25.One power supply Vin inputs to this driving circuit 21, by these main-transformer 22 its voltage levels of conversion, and via behind these voltage regulation capacitor 23 burning voltages, this flow equalizing circuit 3 receives these burning voltages and drives the electric current of these a plurality of fluorescent tubes 24 with balance, and this flow equalizing circuit 3 is electrically connected to this power supply Vin by this driving circuit 21 with this main-transformer 22.

This flow equalizing circuit 3 comprises a plurality of first balancing transformers 31, and respectively these a plurality of first balancing transformers 31 are electrically connected respectively these a plurality of fluorescent tubes 24 respectively, and these a plurality of first balancing transformers 31 are connected in series in regular turn.

Respectively these a plurality of first balancing transformers 31 have a primary side 311 and a secondary side 312, this primary side 311 has one first end A and one second end B, this secondary side 312 has one the 3rd end C and one the 4th end D, wherein the 4th end D is electrically connected to this first end A of another first balancing transformer 31, to constitute the serial connection relation.

In the present embodiment, respectively this second end B of these a plurality of first balancing transformers 31 is electrically connected to respectively these a plurality of fluorescent tubes 24, the 3rd end C of these a plurality of first balancing transformers 31 is electrically connected to this main-transformer 22 and this voltage regulation capacitor 23, and this main-transformer 22 is electrically connected to this driving circuit 21.

Application with backlight module, these a plurality of fluorescent tubes are cold cathode fluorescent lamp pipe (CCFL), and these a plurality of fluorescent tubes 24 are ground connection respectively, and one of them fluorescent tube 24 is electrically connected to this feedback circuit 25, this feedback circuit 25 is electrically connected to this driving circuit 21, controls this driving circuit 21 with this and adjusts output voltage.On the other hand, the earthing mode of these a plurality of fluorescent tubes 24 can be different in response to different backlight modules, also can be as shown in Figure 5, these a plurality of fluorescent tubes 24 are electrically connected to this feedback circuit 25 and common ground jointly, this feedback circuit 25 also is electrically connected to this driving circuit 21, controls this driving circuit 21 with this and adjusts output voltage.

No matter earthing mode as Fig. 4 or Fig. 5, each lamp tube current two first balancing transformers 31 of all must flowing through, therefore each lamp tube current current-sharing number of times increases, the effect of electric current current-sharing also thereby promote, make each fluorescent tube via the current drives of equivalent comparatively after its luminous intensity more aligned.

As shown in Figure 6, another drive system 2 ' comprises m main-transformer 22 and m voltage regulation capacitor 23, each main-transformer 22 is in order to drive n fluorescent tube 24, this fluorescent tube 24 can be the cold cathode fluorescent lamp pipe, this flow equalizing circuit 3 ' is electrically connected between these a plurality of main-transformers 22 and this a plurality of fluorescent tubes 24, and this flow equalizing circuit 3 ' comprises the electric current of m * n first balancing transformer 31 with those fluorescent tubes 24 of balance.Wherein, these a plurality of first balancing transformers 31 can be as Fig. 4, and being one another in series connects and connect respectively a fluorescent tube 24, and these a plurality of fluorescent tubes 24 can be as the indivedual ground connection of Fig. 6, and have a fluorescent tube 24 to be electrically connected to this feedback circuit 25; Or as shown in Figure 7, all fluorescent tubes 24 are electrically connected to this feedback circuit 25 and common ground jointly.The mode that interconnects of these a plurality of balancing transformers 31 as previously mentioned, so repeat no more.

As shown in Figure 8, be that with Fig. 6 difference respectively this second end B of these a plurality of first balancing transformers 31 is electrically connected to this power supply Vin by this driving circuit 21, this main-transformer 22 and this fluorescent tube 24, and in this flow equalizing circuit 3 ', the 3rd end C of one first balancing transformer 31 wherein is electrically connected to this feedback circuit 25 for these a plurality of fluorescent tubes 24 of FEEDBACK CONTROL, and the 3rd end C of all the other first balancing transformers 31 is not connected to this earthing power supply or ground connection.In addition, the 3rd end C of these a plurality of first balancing transformers 31 also can be electrically connected to this feedback circuit 25 and ground connection (in this not mapping explanation in addition) jointly.

As shown in Figure 9, another drive system 2 again " flow equalizing circuit 3 " except that having a plurality of first balancing transformers 31, also comprise a plurality of second balancing transformers 32, these a plurality of second balancing transformers 32 are electrically connected to respectively these a plurality of first balancing transformers 31 in twos, wherein these a plurality of second balancing transformers 32 are electrically connected between these a plurality of first balancing transformers 31 and this a plurality of fluorescent tubes 24, and the 3rd end C of these a plurality of first balancing transformers 31 is electrically connected to this feedback circuit 25 and ground connection jointly.

Each second balancing transformer 32 has a primary side 321 and a secondary side 322, this primary side 321 has a five terminal E and one the 6th end F, this secondary side 322 has one the 7th end G and one the 8th end H, and this five terminal E and the 7th end G are electrically connected to respectively this second end B of these a plurality of first balancing transformers 31.

Respectively the 6th end F of these a plurality of second balancing transformers 32 and the 8th end H are electrically connected to a fluorescent tube 24 respectively, with two lamp tube current of this balance.In addition, these a plurality of fluorescent tubes 24 are electrically connected to this a plurality of main-transformers 22 and these a plurality of voltage regulation capacitors 23, and these a plurality of main-transformers 22 are electrically connected to this driving circuit 21 to be electrically connected this power supply Vin.

In the present embodiment, the electric current of per two fluorescent tubes 24 is earlier through after each second balancing transformer, 32 current-sharing, electric current is again via first balancing transformer, 31 current-sharings that respectively are connected in series, but the electric current current-sharing of each fluorescent tube 24 of event three times, thereby the effect of lifting current-sharing, to promote the current balance type of each fluorescent tube 24.

In the aforementioned embodiment, this flow equalizing circuit 3 " can promote whole drive system 2 " circuit reliability, and improve and drive each lamp tube current balance, and this flow equalizing circuit 3 " in these a plurality of first balancing transformers 31 of being connected in series require lower for the coupled characteristic of coil; therefore can reduce the accuracy requirement of balancing transformer, reduce the manufacturing cost of balancing transformer.

In addition, these a plurality of fluorescent tubes can be distinguished ground connection or common ground, and the fluorescent tube quantity that this main-transformer drove is not limited to two, and also can increase this main-transformer quantity to strengthen driving force when fluorescent tube quantity increases.For more strengthening the current-sharing effect, these a plurality of fluorescent tubes can come the balance lamp tube current via extra balancing transformer earlier in twos.

No matter the type of drive system is why, but these a plurality of fluorescent tubes of various connection of this flow equalizing circuit current-sharing and earthing mode, and this flow equalizing circuit and these a plurality of fluorescent tubes can be provided with in response to various backlight module.

In sum, has the balancing transformer of serial connection each other because of flow equalizing circuit according to a kind of cold cathode fluorescent lamp pipe of the present invention.Compare with known technology, the present invention can make the drive current of fluorescent tube at least two balancing transformers of flowing through, and increases the flow through number of times of balancing transformer of drive current with this, to strengthen the current-sharing effect.

The above only is an illustrative, but not is restrictive.Anyly do not break away from spirit of the present invention and category, and, all should be contained in the claim scope its equivalent modifications of carrying out or change.

Claims (16)

1, a kind of flow equalizing circuit, a plurality of lamp tube current of balance, this flow equalizing circuit comprises:

A plurality of first balancing transformers be electrically connected respectively these a plurality of fluorescent tubes, and these a plurality of first balancing transformers are connected in series in regular turn.

2, flow equalizing circuit as claimed in claim 1, wherein respectively these a plurality of first balancing transformers also comprise:

A primary side has one first end and one second end; And

A secondary side has one the 3rd end and one the 4th end, and wherein the 4th end is electrically connected to this first end of another first balancing transformer.

3, flow equalizing circuit as claimed in claim 2, wherein these a plurality of the 3rd ends are electrically connected at least one main-transformer, and are electrically connected to a power supply by this main-transformer.

4, flow equalizing circuit as claimed in claim 3, wherein this main-transformer is electrically connected to one drive circuit, and these a plurality of the 3rd ends are electrically connected to this power supply by this main-transformer and this driving circuit.

5, flow equalizing circuit as claimed in claim 2, wherein these a plurality of the 3rd ends are electrically connected to a voltage regulation capacitor or difference ground connection.

6, flow equalizing circuit as claimed in claim 2, wherein these a plurality of second ends are electrically connected to this many Jie fluorescent tube accordingly.

7, flow equalizing circuit as claimed in claim 6, wherein these a plurality of fluorescent tube common grounds or ground connection respectively.

8, flow equalizing circuit as claimed in claim 6, wherein these a plurality of fluorescent tubes one of them be electrically connected to a feedback circuit, or these a plurality of fluorescent tubes are electrically connected to a feedback circuit jointly.

9, flow equalizing circuit as claimed in claim 8, wherein this feedback circuit is electrically connected to one drive circuit.

10, flow equalizing circuit as claimed in claim 1, wherein these a plurality of fluorescent tube cold cathode fluorescent lamp pipes.

11, flow equalizing circuit as claimed in claim 1 also comprises:

A plurality of second balancing transformers are electrically connected to respectively these a plurality of first balancing transformers in twos, and wherein these a plurality of second balancing transformers are electrical

Be connected between these a plurality of first balancing transformers and this a plurality of fluorescent tubes.

12, flow equalizing circuit as claimed in claim 11, wherein respectively these a plurality of second balancing transformers comprise:

One primary side has a five terminal and one the 6th end; And

One secondary side has one the 7th end and one the 8th end, and wherein this five terminal and the 7th end are electrically connected to respectively these a plurality of first balancing transformers.

13, flow equalizing circuit as claimed in claim 12, wherein respectively the 6th end of these a plurality of second balancing transformers and the 8th end are electrically connected to this a plurality of fluorescent tubes respectively.

14, flow equalizing circuit as claimed in claim 13, wherein these a plurality of fluorescent tubes are electrically connected to a main-transformer.

15, flow equalizing circuit as claimed in claim 14, wherein this main-transformer is electrically connected to one drive circuit.

16, flow equalizing circuit as claimed in claim 13, wherein these a plurality of fluorescent tubes are electrically connected to a voltage regulation capacitor.

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