CN201758474U - LED light tube controlling circuit of LCD (liquid crystal display) - Google Patents

Abstract

The utility model discloses an LED light tube controlling circuit of an LCD (liquid crystal display). The LED light tube controlling circuit comprises diodes, a protection circuit, more than one constant current circuit and a change-over switch, wherein one control signal input terminal of every constant current circuit is connected with a switch control circuit used for outputting off-on control signals and controlling the work of the constant current circuit, and a dimming control circuit used for outputting dimming control signals and controlling the brightness of every LED strip. When the voltage at the input terminal of every LED strip is higher than a rated voltage thereof or an LED in the LED strip is in short circuit, a protection circuit outputs switching signals, and then the change-over switch cuts off the on-off control signals after receiving switching signals so as to control an LED light tube not to work. The LED light tube controlling circuit has the advantages of simple structure, stability and reliability, and particularly suitable for controlling the LED light tube of the LCD where the input voltage does not exceed 70V and no more than four LED strips are arranged, and reduces the cost of the LCD.

Description

A kind of LCD light-emitting diode lamp tube control circuit

Technical field

The utility model relates to a kind of LED control circuit, relate in particular to lamp string number that a kind of suitable control maximum input voltage is no more than 70 volts and light-emitting diode lamp tube at 4 strings with interior LCD light-emitting diode lamp tube control circuit.

Background technology

At present LCD or LCD TV have been brought into use the light-emitting diode lamp tube be made up of the light-emitting diode backlight as liquid crystal panel gradually.The driving booster circuit that present this light-emitting diode lamp tube is adopted adopts DC boost converter (DC-DC Boost) usually.

See also shown in Figure 1ly, Fig. 1 is existing LED driving circuit schematic diagram.Full-wave alternating current voltage by the civil power input is input to interchange commentaries on classics direct current transducer 1, exchanging changes two groups of direct voltages of direct current transducer 1 output, one group provides the 5V direct voltage to LCD motherboard circuit 2 by 102 ends, and another group provides the low-voltage DC between 12V～19V to be depressed into DC boost converter 3 by 101 ends, and DC boost converter 3 comprises DC voltage booster circuit 31, DC filtering circuit 32, overvoltage circuit for detecting 34, light-emitting diodes pipe driving chip 33.

The pulse-width modulation signal output part output pulse width modulating signal of light-emitting diodes pipe driving chip 33 is to DC voltage booster circuit 31, use the output voltage size after the low-voltage dc voltage conversion between 12V～19V that control DC voltage booster circuit 31 obtains via 101 ends, and then control light-emitting diode lamp tube size of current.The characteristics of light-emitting diodes pipe driving chip 33 are in light-emitting diodes pipe driving chip 33 inside with the excess voltage protection of adjusting control circuit, ON-OFF control circuit, light-emitting diode lamp tube, flow equalizing circuit and short-circuit protection circuit integrating.

As shown in Figure 1, light-emitting diode lamp tube 4 comprises two groups of above LED light strings 41.Comprise the light-emitting diode that a plurality of orders are composed in series in each LED light string 41, and each LED light string 41 all has an output.The pulsating dc voltage of DC voltage booster circuit 31 output changes into the required low ripple direct voltage of light-emitting diode lamp tube 4 through DC filtering circuit 32, and the lamp string 41 of using driven for emitting lights diode 4 is luminous.The output of light-emitting diode lamp tube 41 is received the feedback pin position (pin) of light-emitting diodes pipe driving chip 33 respectively; use the sharing control that each group LED light string 41 is carried out deciding electric current, and each group LED light string 41 is carried out short-circuit protection control.202 ends of motherboard circuit 2 and 201 ends export respectively dimming control signal and switch controlling signal to the light modulation pin position (Dim) of light-emitting diodes pipe driving chip 33 with enable pin position (Enable), use the ensemble average brightness and the light-emitting diodes pipe driving chip 33 of control light-emitting diode lamp tube and whether work.

Yet, because LED light string number in parallel in the light-emitting diode lamp tube in the designed liquid crystal panel of existing liquid crystal panel manufacturer has nothing in common with each other, one is about 1 and goes here and there 8 strings, and the light-emitting diode series connection number of lamp string is also inequality in the LED liquid crystal panel of different manufacturers different size.The drive circuit chip of liquid crystal panel design manufacturer is in order to allow can the arrange in pairs or groups liquid crystal panel of how different lamp string numbers of the drive circuit of LCD manufacturers design, and more feedback pin position is set in drive circuit chip, and the feedback electric current that allows each feedback pin position can bear is also increasing.The light-emitting diode lamp tube chip for driving of the MPS producer MP3389 model of being produced for example, nearly 12 of its feedback pin positions, and each feedback pin position can bear maximum electric current and is about 60mA, therefore light-emitting diode lamp tube chip for driving price is also expensive especially, and designed light-emitting diode lamp tube drive circuit total cost of coming out is often than higher.21.5 inches liquid crystal panels for the LM215WF4 model of being produced as LG producer, LED light string quantity in its inner light-emitting diode lamp tube has only the operating current of 2 and each LED light string up to 160mA, if drive the words of this light-emitting diode lamp tube with aforementioned MP3389 model light-emitting diode lamp tube chip for driving, its 12 feedback pin positions can not all utilize, and can cause the waste of design cost.

Therefore be necessary to design a kind of few and drive circuit that each LED light string electric current is bigger of lamp string number in the light-emitting diode lamp tube that is applicable to and reduce the design cost of light-emitting diode lamp tube control circuit.

Summary of the invention

The utility model purpose provide lamp string number that a kind of suitable control maximum input voltage is no more than 70 volts and light-emitting diode lamp tube at 4 strings with interior LCD light-emitting diode lamp tube control circuit.

The utility model adopts following scheme to realize: LCD light-emitting diode lamp tube control circuit comprises exchanging changes direct current transducer, exchange the commentaries on classics direct current transducer and comprise two outputs, one of them output provides the 5V direct voltage to the LCD motherboard circuit, another output connects the light-emitting diode lamp tube input, this light-emitting diode lamp tube comprises an above LED light string, be connected in parallel between the LED light string, wherein said control circuit also comprises: diode, number of diodes is consistent with the quantity of LED light string, wherein the positive pole of each diode connects the output of a LED light string separately, and this diode prevents to take place to crosstalk mutually between each LED light string output; Protective circuit links to each other with the negative pole of each diode, when the input terminal voltage of LED light string is higher than light-emitting diode in its rated voltage or the LED light string and short circuit occurs, and switching signal of this protective circuit output; Constant-current circuit, constant-current circuit quantity is consistent with the quantity of LED light string, wherein each constant-current circuit output connects the output of a LED light string separately, a signal input end of each constant-current circuit connects ON-OFF control circuit and adjusting control circuit, whether the ON-OFF control circuit output switch control signal is controlled this constant-current circuit and is worked, and adjusting control circuit output dimming control signal is controlled this LED light string brightness; Diverter switch; the input control end of diverter switch and the output of protective circuit are mutually in succession; the earth terminal ground connection of diverter switch; the output of diverter switch is connected with the switch controlling signal output of motherboard circuit; low level control signal of diverter switch output output when diverter switch receives the switching signal that receives protective circuit output; make to be drawn and be low level from the switch controlling signal of motherboard circuit output; do not work switch controlling signal operate as normal when diverter switch does not receive this switching signal thereby control all LED light strings.

Described interchange is changeed direct current transducer and is comprised the electromagnetic interference suppression circuit that links to each other successively, bridge rectifier, the power frequency capacitive filter, the inverse-excitation type transformer, the primary side of inverse-excitation type transformer is provided with a chip for driving and power supply circuits, the primary side of inverse-excitation type transformer connects two rectifier diodes, the rectifier diode negative pole connects filter circuit respectively, the output of filter circuit promptly is to exchange two outputs that change direct current transducer, the output of filter circuit links to each other with the sample circuit input respectively, the sample circuit output links to each other with the feedback circuit input, and the output of feedback circuit links to each other with the feedback pin position of chip for driving.

Described constant-current circuit comprises a voltage stabilizing chip, a NPN transistor and a current sense resistance, the collector electrode of this NPN transistor is connected to the output of a LED light string, the emitter of this NPN transistor connects an end of current sense resistance and the reference edge of this voltage stabilizing chip, the anode tap ground connection of the other end of current sense resistance and this voltage stabilizing chip, the resistance other end that the cathode terminal of this voltage stabilizing chip and one one end are connected on the base stage of NPN transistor links to each other, the cathode terminal of this voltage stabilizing chip also links to each other with another resistance, another termination reference voltage of this resistance.

The input of described ON-OFF control circuit is provided with resistance and links to each other with the switch controlling signal output of LCD motherboard circuit, switch controlling signal is exported by the LCD motherboard circuit, this resistance other end links to each other with the first NPN transistor base stage, the first NPN transistor emitter connects primary side ground, the first NPN transistor collector electrode is connected with reference resistance one end with the second NPN transistor base stage, the reference resistance other end is connected with reference voltage, the second NPN transistor emitter connects primary side ground, the second NPN transistor collector electrode connects collector resistance one end, the collector resistance other end promptly is the output of ON-OFF control circuit, this output connects the signal input end of each constant-current circuit, i.e. the base stage of the NPN transistor in the constant-current circuit.

The input of described adjusting control circuit is provided with resistance and links to each other with the dimming control signal output of LCD motherboard circuit, dimming control signal is exported by the LCD motherboard circuit, this resistance other end links to each other with the first NPN transistor base stage, the first NPN transistor emitter connects primary side ground, the first NPN transistor collector electrode is connected with reference resistance one end with the second NPN transistor base stage, the reference resistance other end is connected with reference voltage, the second NPN transistor emitter connects primary side ground, the second NPN transistor collector electrode connects collector resistance one end, the collector resistance other end promptly is the output of adjusting control circuit, this output connects the signal input end of each constant-current circuit, i.e. the base stage of the NPN transistor in the constant-current circuit.

Described protective circuit comprises a Zener diode, the negative pole of this Zener diode connects the negative pole of each diode, the positive pole of this Zener diode is connected to resistance one end, this resistance other end is connected with an end of second resistance, an end of electric capacity and the input control end of diverter switch, another termination primary side ground of second resistance and electric capacity; When the input terminal voltage of LED light string is higher than when having light-emitting diode short circuit to occur in its rated voltage or the LED light string, Zener diode conducting, the voltage of the output of LED light string output to the input control end (promptly exporting switching signal) of diverter switch by described resistance and electric capacity; When this not conducting of Zener diode, no diverter switch control signal is input to the input control end of diverter switch.

Described diverter switch is NPN transistor or nmos pass transistor.

The beneficial effects of the utility model are: the utility model is simple in structure, reliable and stable, especially be fit to LED light string number that the control maximum input voltage is no more than 70 volts and light-emitting diode lamp tube at 4 strings with interior LCD light-emitting diode lamp tube, can reduce the LCD cost.

Description of drawings

Now in conjunction with the accompanying drawings the utility model is further elaborated: Fig. 1 is the circuit theory schematic diagram of existing LED driving circuit; Fig. 2 is the circuit theory schematic diagram of the utility model control circuit; Fig. 3 is the circuit diagram that the utility model exchanges changes direct current transducer; Fig. 4 is the circuit diagram of the utility model constant-current circuit; Fig. 5 is the circuit diagram that the utility model adjusting control circuit, ON-OFF control circuit are connected with a constant-current circuit; Fig. 6 is the waveform schematic diagram of the utility model switch controlling signal and the work of dimming control signal control LED light string; Fig. 7 is the circuit diagram that the utility model protective circuit connects.

Embodiment

As shown in Figure 2, LCD light-emitting diode lamp tube control circuit comprises exchanging changes direct current transducer 1, exchange commentaries on classics direct current transducer 1 and comprise two outputs 101 and 102, wherein output 102 provides the 5V direct voltage to LCD motherboard circuit 2, another output 101 links to each other with light-emitting diode lamp tube 4, light-emitting diode lamp tube 4 comprises that (LED light string 41 is two when above to an above LED light string 41, be connected in parallel between the LED light string 41), output 101 outputs are slightly larger than light-emitting diode lamp tube 4 maximum working voltage values and drive its work for light-emitting diode lamp tube 4, the maximum input voltage of light-emitting diode lamp tube 4 is no more than 70 volts, the quantity of preferred LED light string 41 is smaller or equal to 4 strings, wherein said control circuit also comprises: diode 5, diode 5 quantity are consistent with LED light string 41 quantity, wherein the positive pole of each diode 5 connects the output of a LED light string 41 separately, and diode 5 prevents to take place to crosstalk mutually between each LED light string 41 outputs; Protective circuit 6 links to each other with the negative pole of each diode 5, and when the input terminal voltage of LED light string 41 was higher than light-emitting diode in its rated voltage or this LED light string 41 and short circuit occurs, signal was switched in these protective circuit 6 outputs one; Constant-current circuit 7, constant-current circuit 7 quantity are consistent with the quantity of LED light string 41, wherein each constant-current circuit 7 output connects the output of a LED light string 41 separately, a signal input end of each constant-current circuit 7 connects ON-OFF control circuit 8 and adjusting control circuit 9, whether ON-OFF control circuit 8 output switch control signals are controlled this constant-current circuit 7 and are worked, adjusting control circuit 9 output dimming control signals are controlled this LED light string 41 brightness, the input of ON-OFF control circuit 8 connects the switch controlling signal output 201 of LCD motherboard circuit 2, the input of adjusting control circuit 9 connects the dimming control signal output 202 of LCD motherboard circuit 2, ON-OFF control circuit 8 and adjusting control circuit 9 all can be controlled each constant-current circuit 7 separately, whether the switch controlling signal of ON-OFF control circuit 8 outputs is controlled constant-current circuit 7 and then is controlled all LED light strings 41 and work, the ensemble average brightness the when dimming control signal of adjusting control circuit 9 outputs is controlled constant-current circuit 7 and then controlled all LED light strings 41 work; Diverter switch 10, the input control end 1001 of diverter switch 10 and the output of protective circuit 6 are mutually in succession, earth terminal 1002 ground connection of diverter switch 10, the switching signal output 1003 of diverter switch 10 is connected with the switch controlling signal output 201 of motherboard circuit 2; The switching signal output 1003 of diverter switch 10 will be exported a low level control signal (1002 earth terminals of diverter switch 10 and 1003 terminations are logical) when diverter switch 10 receives this switching signal that receives protective circuit 6 outputs, make to be drawn and be low level from the switch controlling signal of motherboard circuit 2 output, do not work switch controlling signal operate as normal when diverter switch 10 does not receive this switching signal thereby control all LED light strings 41; When light-emitting diode lamp tube 4 input terminal voltages are higher than when having light-emitting diode short circuit to occur in its rated voltage or the LED light string 41; protective circuit 6 switching signals of output (promptly exporting high level signal) to the control end 1001 of diverter switch 10 is connected the earth terminal 1002 of diverter switch 10 and switching signal output 1003, makes the switch controlling signal of switch controlling signal output 201 outputs of LCD motherboard circuit 2 be drawn to low level and then control all LED light strings 41 and quits work.

As shown in Figure 3, exchange commentaries on classics direct current transducer 1 and comprise the electromagnetic interference suppression circuit 11 that links to each other successively, a bridge rectifier 12, a power frequency capacitive filter 13, an inverse-excitation type transformer 14, the primary side of inverse-excitation type transformer 14 is provided with a chip for driving 16 and power supply circuits 15, the primary side of inverse-excitation type transformer 14 connects two rectifier diode D11, D12, rectifier diode D11, the D12 negative pole connects filter circuit 171 respectively, 172, filter circuit 171,172 output promptly is to exchange the output 101 and 102 that changes direct current transducer 1, filter circuit 171,172 output links to each other with sample circuit 18 inputs respectively, sample circuit 18 outputs link to each other with feedback circuit 19 inputs, and the output of feedback circuit 19 links to each other with the feedback pin position of chip for driving 16; The alternating current that is provided by power supply network is input to electromagnetic interference suppression circuit 11, electromagnetic interference suppression circuit 11 can be isolated internal circuit and the mutual interference mutually of externally fed net noise, alternating current exports bridge rectifier 12 to from electromagnetic interference suppression circuit 11, by bridge rectifier 12 alternating current is carried out full-wave rectification, bridge rectifier 12 outputs connect the input of power frequency capacitive filter 13, the direct voltage that half-sinusoid after the rectification is had the certain voltage ripple by 13 outputs of power frequency capacitive filter, the output of power frequency capacitive filter 13 is connected with 1401 ends (primary side Np winding end of the same name) of inverse- excitation type transformer 14, and 1402 ends of inverse-excitation type transformer 14 (primary side Np winding different name end) connect the drain electrode of a nmos pass transistor Q10.The grid of nmos pass transistor Q10 links to each other with the pulse-width modulation output pin position of chip for driving 16, the source electrode of nmos pass transistor Q10 links to each other with an end of current sense resistance R 15 and the current sense pin position of chip for driving 16, current sense resistance R 15 other ends connect 1404 ends (be the primary side earth terminal, be called for short primary side ground) of inverse-excitation type transformer 14.Chip for driving 16 pulse-width modulation output pin positions control nmos pass transistor Q10 Push And Release, thereby control inverse-excitation type transformer 14 output energy sizes, 1403 ends of inverse-excitation type transformer 14 (primary side Nvcc winding different name end) connect a diode D10 positive pole, diode D10 negative pole connects power supply circuits 15, power supply circuits 15 outputs link to each other with chip for driving 16, for chip for driving 16 provides operating voltage, 1404 ends of inverse-excitation type transformer 14 (primary side Nvcc winding end of the same name) connect primary side ground, 1405 ends of inverse-excitation type transformer 14 (primary side Ns1 winding end of the same name) connect the primary side ground connection end (being called for short primary side ground) of inverse- excitation type transformer 14,1406 ends of inverse-excitation type transformer 14 (primary side Ns1 winding different name end) connect rectifier diode D12 positive pole, rectifier diode D12 negative pole connects output filter circuit 172 inputs, the voltage that the primary side Ns1 winding of inverse-excitation type transformer 14 is transmitted out offers output filter circuit 172 and carries out filtering after the unidirectional rectification of rectifier diode D12, the output of output filter circuit 172 promptly is to exchange 102 outputs that change direct current transducer 1,5V is to LCD motherboard circuit 2 and LED driving circuit work for the output of 102 outputs, 1407 ends of the Ns2 winding of inverse-excitation type transformer 14 (primary side Ns2 winding different name end) connect rectifier diode D11 positive pole, rectifier diode D11 negative pole connects output filter circuit 171 inputs, the voltage that the primary side Ns2 winding of inverse-excitation type transformer 14 is transmitted out offers output filter circuit 171 and carries out filtering after the unidirectional rectification of rectifier diode D11, the output of output filter circuit 171 promptly is to exchange 101 outputs that change direct current transducer 1, and 101 outputs directly output are slightly larger than the voltage of light-emitting diode lamp tube 4 rated operational voltages to light-emitting diode lamp tube 4 its work of driving; 101, the 102 output output voltages feedback pin position that feedback signal fed back to chip for driving 16 by sample circuit 18 and feedback circuit 19 feeds back to chip for driving 16 inside and carries out s operation control, the output voltage of using control output end 101,102 keeps stable, can control 101,102 output output voltage ratios by Ns1, the Ns2 winding number of turns ratio size of adjusting inverse-excitation type transformer 14 during design circuit, also can be by adjusting the sample resistance R10 in the sample circuit 18, R11, the resistance size of R12 is adjusted 101,102 output output voltage sizes is set; When for example 102 outputs are exported 5V, if the Ns1 winding of inverse-excitation type transformer 14 is 3 circles, the load voltage value of light-emitting diode lamp tube 4 is 60V, then can obtain Ns2 by relational expression Ns1/ (Ns1+Ns2)=5V/60V is 33 circles, be that the Ns2 winding will just can reach 60V by 101 output output voltages in theory when 33 circles, simultaneously by adjusting sample resistance R10, R11, the resistance size of R12, with guarantee 101,102 output output voltages at load is different when changing 101 output output voltages all more than 60V.

As shown in Figure 4, each constant-current circuit 7 all comprises a voltage stabilizing chip 71, a NPN transistor Q311 and a current sense resistance R 311, the collector electrode of this NPN transistor Q311 is connected to the output of a LED light string 41, the emitter of this NPN transistor Q311 connects an end of current sense resistance R 311 and the reference edge of this voltage stabilizing chip 71 (or being called the R end), the anode tap of the other end of current sense resistance R 311 and this voltage stabilizing chip 71 (or being called the A end) ground connection, resistance R 312 other ends that the cathode terminal of this voltage stabilizing chip 71 (or be called C end) and one one end are connected on the base stage of NPN transistor Q311 link to each other, the cathode terminal of this voltage stabilizing chip 71 also links to each other with another resistance R 313, these resistance R 313 another termination 5V reference voltages; Voltage stabilizing chip 71 can be selected TL431 or AZ431 for use; When the input terminal voltage rising Δ V of LED light string 41, the electric current of LED light string 41 increases, make the electric current I ce1 between NPN transistor Q311 collector electrode and the emitter increase, the reference voltage terminal of voltage stabilizing chip 71 (VR=I ce1 * R311) increase, the transistor collector of voltage stabilizing chip 71 inside and the electric current I ce2 between the emitter increase, the cathode terminal voltage of voltage stabilizing chip 71 (corresponding the reducing of VC=5V-Ice2 * R313), then the electric current between NPN transistor Q311 base stage and the emitter-base bandgap grading also reduces thereupon, make the electric current I ce1 between NPN transistor Q311 collector electrode and the emitter reduce, up voltage Δ V will be increased between the NPN transistor Q311 collection utmost point and the emitter-base bandgap grading on the input at this moment, it is the voltage Vce1 rising between NPN transistor Q311 collector electrode and the emitter, thereby guarantee the both end voltage held stationary of LED light string 41, LED light string 41 maintains certain electric current; In like manner, when the voltage of LED light string 41 inputs reduces, can make the corresponding reduction with the voltage between the emitter of collector electrode of NPN transistor Q311, thereby guarantee the both end voltage held stationary of LED light string 41, LED light string 41 maintains certain electric current.

As shown in Figure 5, the input of ON-OFF control circuit 8 is provided with resistance R 611 and links to each other with the switch controlling signal output 201 of LCD motherboard circuit 2, switch controlling signal is by 2 outputs of LCD motherboard circuit, resistance R 611 other ends link to each other with the first NPN transistor Q611 base stage, the first NPN transistor Q611 emitter connects primary side ground, the first NPN transistor Q611 collector electrode is connected with reference resistance R612 one end with the second NPN transistor Q612 base stage, the reference resistance R612 other end is connected with the 5V reference voltage, the second NPN transistor Q612 emitter connects primary side ground, the second NPN transistor Q612 collector electrode connects collector resistance R613 one end, the collector resistance R613 other end promptly is ON-OFF control circuit 8 outputs, this output connects the signal input end of each constant-current circuit 7, i.e. the base stage of NPN transistor Q311 in the constant-current circuit 7; When the switch controlling signal of switch controlling signal output 201 output of LCD motherboard circuit 2 is high level, NPN transistor Q611 conducting, this moment, NPN transistor Q612 base stage was a low-voltage, so NPN transistor Q612 ends, the NPN transistor Q311 in the constant-current circuit 7 is done the ensemble average brightness of Push And Release action and then control LED lamp string 41 by the dimming control signal of adjusting control circuit 9 outputs.

When the switch controlling signal of switch controlling signal output 201 output of LCD motherboard circuit 2 is low level, NPN transistor Q611 ends, this moment, NPN transistor Q611 base stage was a high voltage, so NPN transistor Q612 conducting, NPN transistor Q311 base voltage in the constant-current circuit 7 is drawn and is low-voltage at this moment, resistance R 613, R312, when satisfying following relation: Vce612+ (5V-Vce612) * R613/ (R613+R312+R313) between the R313 less than the minimum conducting voltage between NPN transistor Q311 base stage and the emitter-base bandgap grading (pressure drop between collector and emitter when Vce612 is transistor Q612 saturation conduction), to guarantee that NPN transistor Q311 can be cut off, Q311 is cut off when NPN transistor, LED light string 41 no conducting electric currents are not and shinny, and promptly LED light string 41 quits work.

The input of adjusting control circuit 9 inputs is provided with resistance R 511 and links to each other with the dimming control signal output 202 of LCD motherboard circuit 2, dimming control signal is exported by the LCD motherboard circuit, resistance R 511 other ends are connected with the first NPN transistor Q511 base stage, the first NPN transistor Q511 emitter connects primary side ground, the first NPN transistor Q511 collector electrode is connected with reference resistance R512 one end with the second NPN transistor Q512 base stage, the reference resistance R512 other end is connected with the 5V reference voltage, the second NPN transistor Q512 emitter connects primary side ground, the second NPN transistor Q512 collector electrode connects collector resistance R513 one end, the collector resistance R513 other end promptly is adjusting control circuit 9 outputs, this output connects the signal input end of each constant-current circuit 7, i.e. the base stage of NPN transistor Q311 in the constant-current circuit 7; When the dimming control signal of dimming control signal output 202 output of LCD motherboard circuit 2 is high level, NPN transistor Q511 conducting, this moment, NPN transistor Q512 base stage was a low-voltage, so NPN transistor Q512 ends, when the switch controlling signal of exporting as if motherboard circuit 2 outputs 201 this moment was the high level that continues, NPN transistor Q311 conducting and LED lamp string 41 in the constant-current circuit 7 were shinny; When the dimming control signal of dimming control signal output 202 output of LCD motherboard circuit 2 is low level, NPN transistor Q511 ends, this moment, NPN transistor Q512 base stage was a high voltage, so NPN transistor Q512 conducting, NPN transistor Q311 base stage in the constant-current circuit 7 is a low-voltage at this moment, resistance R 513, R312, when satisfying following relation: Vce512+ (5V-Vce512) * R513/ (R513+R312+R313) between the R313 less than the minimum conducting voltage between NPN transistor Q311 base stage and the emitter-base bandgap grading (pressure drop between collector and emitter when Vce512 is transistor Q512 saturation conduction), to guarantee that NPN transistor Q311 can be cut off, Q311 is cut off when NPN transistor, LED light string 41 no conducting electric currents are not and shinny, and promptly LED light string 41 quits work.

Therefore, switch controlling signal output 201 or dimming control signal output 202 when LCD motherboard circuit 2, as long as during any end output low level, the NPN transistor Q311 of control lamp string in the constant-current circuit 7 stream will be cut off, and make LED light string 41 no conducting electric currents and not shinny; Have only when LCD motherboard circuit 2 switch controlling signal output 201 and dimming control signal output 202 when exporting high level simultaneously, NPN transistor Q311 in the constant-current circuit 7 just understands conducting, makes LED light string 41 have certain electric current to flow through and shinny; When the signal that is continuously high level when one of switch controlling signal output 201 output from LCD motherboard circuit 2 is given ON-OFF control circuit 8, again simultaneously from the dimming control signal of the dimming control signal output 202 output pulse width modulations of LCD motherboard circuit 2, make LED light string 41 luminous, because the frequency of the dimming control signal of pulse-width modulation remains on more than the 150Hz usually, is human eye felt because of persistence of vision influence? arrive fluorescent tube? dark alternate fast, can only feel the mean value of this variation, so can reach the dimming effect of adjusting LCD picture brightness by adjusting the LED light string 41 bright dark ratios (promptly adjusting the pulse period duty ratio of dimming control signal) of alternate fast, this dimming mode is called pulse-width modulation light modulation or burst mode (burst mode) light modulation.

As shown in Figure 6, be the waveform schematic diagram of switch controlling signal and dimming control signal control LED light string 41 work.

As shown in Figure 7, protective circuit 6 comprises a Zener diode ZD41, the negative pole of this Zener diode ZD41 connects the negative pole of each diode 5, the positive pole of this Zener diode ZD41 is connected to resistance R 411 1 ends, resistance R 411 other ends are connected with an end of second resistance R 412, an end of capacitor C 411 and the control end 1001 of diverter switch 10, second resistance R 412 and capacitor C 411 another termination primary side ground, capacitor C 411 are used for the noise jamming of filtering high frequency; The effect and the course of work of protective circuit 6 are as follows: when light-emitting diode lamp tube 41 input terminal voltage rising Δ V, rising Δ V voltage will be increased between NPN transistor Q311 collector electrode and the emitter, and promptly voltage Vce rises between NPN transistor Q311 collector electrode and the emitter; When having light-emitting diode short circuit to occur in should certain LED light string 41; then the positive voltage of light emitting diode of short circuit will be increased between the NPN transistor Q311 collector electrode and emitter in the constant-current circuit 7 that is connected with this LED light string in this LED light string; be that voltage Vce rises between NPN transistor Q311 collector electrode and the emitter; when above-mentioned LED light string works on; the loss power of NPN transistor Q311 in the constant-current circuit 7 (is Pon=Vce * Ice; wherein Ice is this lamp string stream of flowing through) will increase; the temperature of NPN transistor Q311 is risen; if voltage Vce rises De Taigao; when making loss power surpass this NPN transistor Q311 to can bear specification; therefore this NPN transistor Q311 will be damaged, and must establish a protective circuit 6 and protect NPN transistor Q311 in all constant-current circuits 7.

Suppose that diode 5 forward conduction voltages are Vf1; providing stable voltage when Zener diode ZD41 collapse and conducting is Vzd1; voltage is Vsw1 during control end 1001 conductings of diverter switch 10; voltage between transistor Q311 collector electrode and the emitter is Vce; transistor Q311 emitter is connected with the reference edge of voltage stabilizing chip 71 and voltage is VR; therefore when the rising of LED light string 41 input terminal voltages or when having light-emitting diode short circuit to occur in certain LED light string 41; the voltage Vce value of NPN transistor Q311 is increased; when Zener diode ZD41 collapses and conducting; and when (VR+Vce-Vf1-Vzd1) * R412/ (R412+R411)＞Vsw1; output HIGH voltage (promptly exporting switching signal) is to the control end 1001 of diverter switch 10 after the resistance R 411 of LED light string 41 input terminal voltages by protective circuit 6 and the R412 dividing potential drop; the earth terminal 1002 of diverter switch 10 is connected with switching signal output 1003; the switch controlling signal of switch controlling signal output 201 output of LCD motherboard circuit 2 is drawn be low level; do not work thereby control all LED light strings 41, LED light string 41 is protected.Otherwise; when Zener diode ZD41 does not collapse and during not conducting; protective circuit 6 output LOW voltages (promptly not exporting switching signal) are to the control end 1001 of diverter switch 10; make the earth terminal 1002 and the 1003 not conductings of switching signal output of diverter switch 10; not protected circuit 6 influences of the switch controlling signal output 201 of LCD motherboard circuit 2 at this moment; be light-emitting diode lamp tube 4 operate as normal, do not need protected.

Described diverter switch 10 is NPN transistor or nmos pass transistor.

The utility model can be used for also can be used for other applications in LCD and the LCD TV.

Claims (7)

1. LCD light-emitting diode lamp tube control circuit, comprise exchanging and change direct current transducer, exchange the commentaries on classics direct current transducer and comprise two outputs, one of them output provides the 5V direct voltage to the LCD motherboard circuit, another output connects light-emitting diode lamp tube, this light-emitting diode lamp tube comprises an above LED light string, it is characterized in that: described control circuit also comprises diode, protective circuit, constant-current circuit, diverter switch, number of diodes is consistent with the quantity of LED light string, wherein the anodal output that connects a LED light string separately of each diode; Link to each other with the negative pole of each diode, when the input terminal voltage of LED light string is higher than light-emitting diode in its rated voltage or the LED light string and short circuit occurs, switching signal of this protective circuit output; Constant-current circuit quantity is consistent with the quantity of LED light string, wherein each constant-current circuit output connects the output of a LED light string separately, a signal input end of each constant-current circuit connects ON-OFF control circuit and adjusting control circuit, whether the ON-OFF control circuit output switch control signal is controlled this constant-current circuit and is worked, and adjusting control circuit output dimming control signal is controlled this LED light string brightness; The input control end of diverter switch and the output of protective circuit are mutually in succession; the earth terminal ground connection of diverter switch; the switching signal output of diverter switch is connected with the switch controlling signal output of motherboard circuit; low level control signal of diverter switch output output when diverter switch receives the switching signal that receives protective circuit output; make to be drawn and be low level from the switch controlling signal of motherboard circuit output; do not work switch controlling signal operate as normal when diverter switch does not receive this switching signal thereby control all LED light strings.

2. a kind of LCD light-emitting diode lamp tube control circuit according to claim 1, it is characterized in that: described interchange is changeed direct current transducer and is comprised the electromagnetic interference suppression circuit that links to each other successively, bridge rectifier, the power frequency capacitive filter, the inverse-excitation type transformer, the primary side of inverse-excitation type transformer is provided with a chip for driving and power supply circuits, the primary side of inverse-excitation type transformer connects two rectifier diodes, the rectifier diode negative pole connects filter circuit respectively, the output of filter circuit promptly is to exchange two outputs that change direct current transducer, the output of filter circuit links to each other with the sample circuit input respectively, the sample circuit output links to each other with the feedback circuit input, and the output of feedback circuit links to each other with the feedback pin position of chip for driving.

3. a kind of LCD light-emitting diode lamp tube control circuit according to claim 1, it is characterized in that: described constant-current circuit comprises a voltage stabilizing chip, a NPN transistor and a current sense resistance, the collector electrode of this NPN transistor is connected to the output of a LED light string as an output of constant-current circuit, the emitter of this NPN transistor connects an end of current sense resistance and the reference edge of this voltage stabilizing chip, the anode tap ground connection of the other end of current sense resistance and this voltage stabilizing chip, the resistance other end that the cathode terminal of this voltage stabilizing chip and one one end are connected on the base stage of NPN transistor links to each other, the cathode terminal of this voltage stabilizing chip also links to each other with another resistance, another termination reference voltage of this resistance.

4. a kind of LCD light-emitting diode lamp tube control circuit according to claim 1, it is characterized in that: the input of described ON-OFF control circuit is provided with resistance and links to each other with the switch controlling signal output of LCD motherboard circuit, switch controlling signal is exported by the LCD motherboard circuit, this resistance other end links to each other with the first NPN transistor base stage, the first NPN transistor emitter connects primary side ground, the first NPN transistor collector electrode is connected with reference resistance one end with the second NPN transistor base stage, the reference resistance other end is connected with reference voltage, the second NPN transistor emitter connects primary side ground, the second NPN transistor collector electrode connects collector resistance one end, the collector resistance other end promptly is the output of ON-OFF control circuit, this output connects the signal input end of each constant-current circuit, i.e. the base stage of the NPN transistor in the constant-current circuit.

5. a kind of LCD light-emitting diode lamp tube control circuit according to claim 1, it is characterized in that: the input of described adjusting control circuit is provided with resistance and links to each other with the dimming control signal output of LCD motherboard circuit, dimming control signal is exported by the LCD motherboard circuit, this resistance other end links to each other with the first NPN transistor base stage, the first NPN transistor emitter connects primary side ground, the first NPN transistor collector electrode is connected with reference resistance one end with the second NPN transistor base stage, the reference resistance other end is connected with reference voltage, the second NPN transistor emitter connects primary side ground, the second NPN transistor collector electrode connects collector resistance one end, the collector resistance other end promptly is the output of adjusting control circuit, this output connects the signal input end of each constant-current circuit, i.e. the base stage of the NPN transistor in the constant-current circuit.

6. a kind of LCD light-emitting diode lamp tube control circuit according to claim 1, it is characterized in that: described protective circuit comprises a Zener diode, the negative pole of this Zener diode connects the negative pole of each diode, the positive pole of this Zener diode is connected to resistance one end, this resistance other end is connected with an end of second resistance, an end of electric capacity and the input control end of diverter switch, another termination primary side ground of second resistance and electric capacity; When the input terminal voltage of LED light string is higher than when having light-emitting diode short circuit to occur in its rated voltage or the LED light string, Zener diode conducting, the voltage of the output of LED light string output to the input control end of diverter switch by described resistance and electric capacity; When this not conducting of Zener diode, no diverter switch control signal is input to the input control end of diverter switch.

7. according to claim 1 or 6 described a kind of LCD light-emitting diode lamp tube control circuits, it is characterized in that: described diverter switch is NPN transistor or nmos pass transistor.

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