CN1159953C - Multiple lamp tube driving system - Google Patents

Abstract

The present invention relates to a system for driving multiple lamp tubes. The purpose of balancing the current in the lamp tubes is realized by an impedance matching principle. The system for driving multiple lamp tubes is provided with a balance controller which causes the route of each lamp tube to get the impedance matching, and thus, the current flowing through the route of each lamp tube is the same.

Description

Multi-lamp-tube driving system

Technical field

The present invention relates to a kind of lamp-tube driving system (lamp driving system), be particularly related to a kind of LCD (liquid crystal display, LCD) multi-lamp-tube driving system of backlight module (multi-lamp driving system) of being used for.

Background technology

Discharge lamp (discharge lamp), cold cathode fluorescent lamp (cold cathodefluorescent lamp for example, CCFL), often be used as the backlight (backlight) of LCD panel, it has according to state at that time and puts on the end-point voltage characteristic that the frequency of the excitation (AC signal) of fluorescent tube changes.Be triggered (struck) or light (ignited) fluorescent tube and just understand the conducting electric current up to CCFL, the voltage of striding end points during current lead-through is less than trigger voltage (strike voltage), and the trigger voltage when for example lighting must be more than or equal to 1500 volts.In case an electric arc (electrical arc) is triggered in CCFL, then end-point voltage can drop to a working voltage (run voltage) that is about trigger voltage 1/3 size, and wide relatively input current scope is arranged.For example, the working voltage of CCFL can be 500 volts, and current range is 500 micromicroampere to 6 milliamperes, yet its trigger voltage is 1500 volts.Usually CCFL system is driven by the AC signal of frequency range 50KHz to 100Hz.

Discharge lamp has negative resistance character, so its equiva lent impedance can reduce along with the increase of input power.(for example converter (inverter) must have a controllable AC power (controllable alternating current power supply), and the feedback loop (feedback loop) that can accurately monitor electric current in the fluorescent tube to power supply/power to the circuit of fluorescent tube, so that the stability of holding circuit, and has the function of load adjustment (load regulation).

Please refer to Fig. 1, Fig. 1 shows known a kind of lamp-tube driving system.This system has only a feedback, therefore can only control the total current of fluorescent tube, and uncontrollable or each lamp tube current of balance.If when having a lamp tube current excessive, the life-span of its fluorescent tube can shorten, and the brightness meeting of two fluorescent tubes is different and make panel produce the phenomenon of brightness irregularities.

Please refer to Fig. 2, Fig. 2 shows known another kind of lamp-tube driving system.This system is actual to be two groups of control circuits, thereby there is no new meaning, has caused the increase of cost and volume.

Please refer to Fig. 3, Fig. 3 shows known another kind of lamp-tube driving system.This system needs two transformers, therefore can cost of idleness and space.In addition, the secondary series connection of transformer can produce the not tractable problem of high pressure.

Summary of the invention

Therefore, a purpose of the present invention provides a kind of lamp-tube driving system, and this system can directly come balance by the load end Control current, and can extend to the multi-load of single feedback.

Another object of the present invention provides a kind of lamp-tube driving system of saving cost, space and manufacture process.

Another purpose of the present invention provides the high lamp-tube driving system of a kind of current balance type accuracy.

According to above-mentioned purpose, the present invention discloses a kind of multi-lamp-tube driving system, comprise output AC power source a converter, have a light tube group of first fluorescent tube and second fluorescent tube and be electrically coupled to converter and light tube group between a balance controller.Balance controller comprise first load that is electrically coupled between first fluorescent tube and the converter, be electrically coupled to second load between second fluorescent tube and the converter and be electrically coupled to first load and second load between the 3rd load.The resistance value of second load is identical with the resistance value essence of first load.The ratio of the equivalent impedance of the equivalent impedance of the 3rd load and first load is negative value, and preferable ratio is about (2).

Converter according to the present invention comprise with DC power supply convert to AC power a power supply driver, be electrically coupled to the transformer between balance controller and the power supply driver and be electrically coupled to light tube group and power supply driver between a Pwm controller.Pwm controller is according to the feedback signal control power supply driver that comes from light tube group.

According to the Pwm controller of the present invention and the first fluorescent tube electric coupling.Perhaps, according to Pwm controller of the present invention and first fluorescent tube and the second fluorescent tube electric coupling.

Another kind of converter according to the present invention comprise in order to a power supply driver that DC power supply is converted to AC power, be electrically coupled to the transformer between light tube group and the power supply driver and be electrically coupled to balance controller and power supply driver between and according to a Pwm controller of the feedback signal control power supply driver that comes from balance controller.

According to above-mentioned purpose, the present invention has also disclosed a kind of multi-lamp-tube driving system, comprise output AC power source a converter, comprise a light tube group of a plurality of fluorescent tubes and be electrically coupled to light tube group and converter between and in order to a balance controller of each lamp tube current value of balance.Balance controller comprises a plurality of loads and a load adjusting device (load choke).Each load is electrically coupled to respectively between the fluorescent tube and converter of light tube group.Load adjusting device is electrically coupled to each load, and current path is provided, and uses each lamp tube current value of balance.The equiva lent impedance ratio of load adjusting device and each load is negative value.

Description of drawings

For above-mentioned purpose of the present invention, feature and advantage can be become apparent, a preferred embodiment cited below particularly, and conjunction with figs. is described in detail below:

Fig. 1 shows known a kind of lamp-tube driving system;

Fig. 2 shows known another kind of lamp-tube driving system;

Fig. 3 shows another kind of lamp-tube driving system;

Fig. 4 shows a kind of lamp-tube driving system of known first preferred embodiment according to the present invention;

Fig. 5 is used for illustrating the control principle of the balance controller of the present invention's first preferred embodiment;

Fig. 6 shows a kind of lamp-tube driving system of second preferred embodiment according to the present invention;

Fig. 7 shows a kind of lamp-tube driving system of the 3rd preferred embodiment according to the present invention;

Fig. 8 shows a kind of lamp-tube driving system of the 4th preferred embodiment according to the present invention;

Fig. 9 shows a kind of lamp-tube driving system of the 5th preferred embodiment according to the present invention;

Figure 10 A shows a kind of enforcement circuit arrangement (configuration) according to balance controller of the present invention;

Figure 10 B shows according to the another kind of balance controller of the present invention and implements circuit arrangement; And

Figure 10 C shows another the enforcement circuit arrangement according to balance controller of the present invention.

Embodiment

Please refer to Fig. 4, Fig. 4 shows a kind of lamp-tube driving system of first preferred embodiment according to the present invention.The lamp-tube driving system of first preferred embodiment comprises a converter (inverter) 70, a light tube group 80 and a balance controller (balancing controller) 50 according to the present invention.Converter 70 comprises a power supply driver (power driving device) 10, one transformer (transformer) T1 and a Pwm controller (PWM controller) 30.Light tube group 80 is made up of fluorescent tube (lamp) Lp1 and Lp2.Balance controller 50 comprises a load (load) Zb, a load Zc and a load Zd.

Power supply driver 10 is used for converting DC power supply Vin to AC power, and improves high AC power and be supplied to light tube group 80 via transformer T1.PWM controller 30 is controlled power supply driver 10 according to the feedback signal that comes from light tube group 30.The present invention's first preferred embodiment be characterized as the power supply that utilizes balance controller 50 to come balance fluorescent tube Lp1 and Lp2, make both electric currents be tending towards identical.Load Za, Zb, Zc, Zd can be the combinations of resistance, electric capacity, inductance, transistor or collector (IC) etc.The main operation principles of balance controller 50 are for adjusting load Zb, Zc, and the impedance of Zd, and reach the purpose of current balance, wherein adjustment mode can be linear the adjustment, also can be digital adjustment.

Below please refer to Fig. 5, the impedance computation of each load of balance controller 50 is described.

Suppose Za=0, Zb=Zc, Lp1=Z1, Lp2=Z2

V12=I1Z1-I2Z2 then

(1)Iz＝(1/Zd)(I1Z1-I2Z2)

(2)V0＝I1(Z1+Zc)+IzZc

(3)V0＝I2(Z2+Zc)-IzZc

By (2) (3)

I1(Z1+Zc)+IzZc＝I2(Z2+Zc)-IzZc

I1(Z1+Zc)+2IzZc＝I2(Z2+Zc)

I1(Z1+Zc)+(2Zc/Zd)(I1Z1-I2Z2)＝I2(Z2+Zc)

I1(Z1+Zc+2Z1Zc/Zd)＝I2(Z2+Zc+2Z2Zc/Zd)

If (Z1+Zc+2Z1Zc/Zd)=(Z2+Zc+2Z2Zc/Zd), I1=I2 then

(2Zc/Zd)(Z1-Z2)＝Z2-Z1

2Zc/Zd＝(-1)

During therefore as if selection Zc/Zd=(1/2), then I1=I2 so can realize the requirement of current balance type.

If Zc is electric capacity (C) on the application circuit, Zd can use inductance (L), at operating frequency ω

Zc/Zd=(1/j ω C)/(j ω L)=-1/ (ω then ²LC)=-1/2

1/LC＝ω ²/2

Therefore, as long as set 1/LC=ω ²/ 2 can realize the requirement of current balance type.

The present invention utilizes the principle of impedance matching to realize the purpose of current balance type.First preferred embodiment according to the present invention, balance controller 50 is electric capacity shown in Figure 10 A and inductor combination preferably, and wherein electric capacity can adopt the electric capacity of former circuit.So, can reach the requirement of balance as long as add an inductance again.In addition, balance controller 50 can also be the combination of electric capacity, inductance and resistance shown in Figure 10 B.Perhaps, also electric capacity in the circuit shown in Figure 10 A and inductance can be exchanged, and balance controller 50 circuit of formation shown in Figure 10 C.Therefore, as long as the impedance ratio of load Zc and load Zd is (1/2), just can be so that flowing through lamps pipe Lp1 is identical with the electric current of Lp2.

In addition, the preferred embodiment according to the present invention, the equiva lent impedance ratio of load Zc and load Zd just can effectively dwindle the lamp current error as long as suitably be designed to into negative ratio.Below will be with an example explanation.

By I1 (Z1+Zc+2Z1Zc/Zd)=I2 (Z2+Zc+2Z2Zc/Zd)

I1/I2＝(Z2+Zc+2Z2Zc/Zd)/(Z1+Zc+2Z1Zc/Zd)

If Z1=10, Z2=11, then former error should have 10%

If Zc=-10j, Zd=15j (Zc/Zd=-1/1.5), then

I1/I2＝(11-10j+2*11*(-10j)/15j)/(10-10j+2*10*(-10j)/15j)

＝(11-10j-14.67)/(10-10j-13.33)

＝(3.67+10j)/(3.33+10j)

＝(10.65∠θ1)/(10.54∠θ2)

So lamp current error (I1-I2)/I2 just can be reduced to 1% (phase place is not counted in error).Therefore, as long as utilize load Zc and the load Zd of equiva lent impedance ratio relation, can effectively dwindle the lamp current error for negative ratio.

Please refer to Fig. 6, it shows a kind of lamp-tube driving system of second preferred embodiment according to the present invention.Most of circuit arrangement of Fig. 6 is identical with Fig. 5, and difference is the source of the lamp current feedback signal of PWM controller 30.The PWM controller 30 of Fig. 5 is that electric current according to fluorescent tube Lp1 is as feedback signal; And the PWM controller 30 of Fig. 6 is that total current according to fluorescent tube Lp1 and fluorescent tube Lp2 is as feedback signal.

Please refer to Fig. 7, it shows a kind of lamp-tube driving system of the 3rd preferred embodiment according to the present invention.The 3rd preferred embodiment according to the present invention, balance controller 50 can also be disposed between the PWM controller 30 of light tube group 80 and converter 70.

Please refer to Fig. 8, it shows a kind of lamp-tube driving system of the 4th preferred embodiment according to the present invention.The present invention's the 3rd preferred embodiment utilizes a load adjusting device (load choke) 60 to adjust the load balance of entire circuit.The balance controller 50a of the 3rd preferred embodiment comprises load Zp1 according to the present invention, Zp2 ... Zpm and load adjusting device 60.Load adjusting device 60 and each load Zp1, Zp2 ... impedance relationship between the Zpm is according to basic principle deduction shown in Figure 5 and next.

Please refer to Fig. 9, it shows a kind of lamp-tube driving system of the 5th preferred embodiment according to the present invention.The function of the load adjusting device 60 in Fig. 9 is identical with the load adjusting device 60 of Fig. 8.But, the 5th preferred embodiment can be applied to the lamp-tube driving system that converter is a multiple transformers according to the present invention.

In sum; though the present invention discloses as above with preferred embodiment; but it is not in order to limit the present invention; those skilled in the art can do various changes and retouching under the premise without departing from the spirit and scope of the present invention, so protection scope of the present invention is looked the accompanying Claim scope and defined.

Claims (17)

1. multi-lamp-tube driving system comprises:

One converter is exported an AC power;

One light tube group has first fluorescent tube and second fluorescent tube; And

One balance controller is electrically coupled between this converter and this light tube group, in order to this first fluorescent tube of balance and this second lamp tube current value;

This balance controller comprises:

First load is electrically coupled between this first fluorescent tube and this converter;

Second load is electrically coupled between this second fluorescent tube and this converter, and wherein, the resistance value of this second load is identical with the resistance value essence of this first load; And

The 3rd load is electrically coupled between this first load and this second load, and wherein, the ratio of the resistance value of the resistance value of the 3rd load and this first load is negative value.

2. multi-lamp-tube driving system as claimed in claim 1, wherein, this converter comprises:

One power supply driver is in order to convert DC power supply to AC power;

One transformer is electrically coupled between this balance controller and this power supply driver; And

One Pwm controller is electrically coupled between this light tube group and this power supply driver, controls this power supply driver according to the feedback signal that comes from this light tube group.

3. multi-lamp-tube driving system as claimed in claim 2, wherein, this first fluorescent tube of this Pwm controller electric coupling.

4. multi-lamp-tube driving system as claimed in claim 2, wherein, this Pwm controller and this first fluorescent tube and this second fluorescent tube electric coupling.

5. multi-lamp-tube driving system as claimed in claim 1, wherein, this first load and this second load are capacitive impedance, the 3rd load is an inductive impedance.

6. multi-lamp-tube driving system as claimed in claim 5, wherein, the 3rd load is the connection in series-parallel combination of resistance, inductance and electric capacity.

7. multi-lamp-tube driving system as claimed in claim 1, wherein, the preferred values of the essence ratio of the resistance value of the resistance value of the 3rd load and this first load is about (2).

8. multi-lamp-tube driving system as claimed in claim 1, wherein, this converter comprises:

One power supply driver is in order to convert DC power supply to AC power;

One transformer is electrically coupled between this light tube group and this power supply driver; And

One Pwm controller is electrically coupled between this balance controller and this power supply driver, controls this power supply driver according to the feedback signal that comes from this balance controller.

9. multi-lamp-tube driving system as claimed in claim 8, wherein, this Pwm controller and this first load electric coupling.

10. multi-lamp-tube driving system as claimed in claim 8, wherein, this Pwm controller and this first load and this second load electric coupling.

11. multi-lamp-tube driving system as claimed in claim 8, wherein, this first load and this second load are capacitive impedance, and the 3rd load is an inductive impedance.

12. multi-lamp-tube driving system as claimed in claim 11, wherein, the 3rd load is the connection in series-parallel combination of resistance, inductance and electric capacity.

13. a multi-lamp-tube driving system comprises:

One converter is exported an AC power;

One light tube group comprises a plurality of fluorescent tubes; And

One balance controller is electrically coupled between this light tube group and this converter, in order to those lamp tube current values of balance;

This balance controller comprises:

A plurality of loads, each load are electrically coupled to respectively between the fluorescent tube and this converter of this light tube group; And

One load adjusting device is electrically coupled to those loads, and current path is provided, and uses those lamp tube current values of balance.

14. multi-lamp-tube driving system as claimed in claim 13, wherein, those loads are capacitive impedance, and this load adjusting device is an inductive impedance.

15. multi-lamp-tube driving system as claimed in claim 13, wherein, this converter comprises:

One power supply driver is in order to convert DC power supply to AC power;

One transformer is electrically coupled between this balance controller and this power supply driver; And

One Pwm controller is electrically coupled between this light tube group and this power supply driver, controls this power supply driver according to the feedback signal that comes from this light tube group.

16. multi-lamp-tube driving system as claimed in claim 15, wherein, a fluorescent tube of this this light tube group of Pwm controller electric coupling.

17. multi-lamp-tube driving system as claimed in claim 13, wherein, this converter comprises:

One power supply driver is in order to convert DC power supply to AC power;

At least two transformers that are connected in parallel are electrically coupled to respectively between this balance controller and this power supply driver; And

One Pwm controller is electrically coupled between this light tube group and this power supply driver, controls this power supply driver according to the feedback signal that comes from this light tube group.

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