CN204362392U - High direct voltage based on high-power passive harmonic filter directly drives LED circuit - Google Patents

Abstract

The little deficiency of the driving power scope of LED circuit is directly driven for existing passive harmonic filter high direct voltage, the utility model provides a kind of high direct voltage based on high-power passive harmonic filter directly to drive LED circuit, is in series successively by high-power passive harmonic filter HF, high power AC current rectifying and wave filtering circuit BF and LED high-voltage high power switch control circuit group.High-power passive harmonic filter HF is made up of LC harmonic network more than one-level.High power AC current rectifying and wave filtering circuit BF, is responsible for carrying out rectification and filtering to the alternating voltage of input, and exports high direct voltage.LED high-voltage high power switch control circuit group exports the voltage swing of high direct voltage VH according to high power AC current rectifying and wave filtering circuit BF, carries out switch control rule to LED load.Useful technique effect: driving power of the present utility model is up to arriving hundreds of watts, and the development and apply for high-power LED illumination technology is significant.

Description

High direct voltage based on high-power passive harmonic filter directly drives LED circuit

Technical field

The utility model belongs to electronic applications, is specifically related to a kind of high direct voltage based on high-power passive harmonic filter and directly drives LED circuit.

Background technology

LED has energy-efficient outstanding advantages as a kind of luminescent device of new generation, constantly replaces conventional lighting technology and extensive use.LED drive circuit is as a key technology of LED illumination for a long time, has conclusive impact to important parameter such as power factor PF, harmonic distortion THD, the optical frequency sudden strain of a muscle etc. of LED illumination.For this reason, utility model people proposes passive harmonic filter high direct voltage to State Intellectual Property Office and directly drives LED circuit, emphasis solves the technical barrier that power factor PF, harmonic distortion THD and optical frequency are dodged, this technical scheme has that efficiency is high, PF is high, harmonic distortion is little, unglazed stroboscopic, feature that reliability high cost is low, the defect that the optical frequency that this technology overcomes existing Switching Power Supply LED Driving technique poor reliability simultaneously and alternating-current direct drives LED is dodged, applies more and more extensive.But this technical solution also Shortcomings, its power is less, is generally not more than 80 watts.And in practice, hundreds of watts even the high-power LED lighting technology of thousands of watts are very important, application is very widely, the long-range searchlight of such as overpower LED, overpower LED square high-rod lighting lamp etc.Namely aforesaid utility model is due to the restriction on power, cannot be used in the occasion needing high-power LED.Therefore need to improve further the technical scheme of this utility model, the deficiency on power can be overcome.

Utility model content

Directly drive the little deficiency of the driving power scope of LED circuit for existing passive harmonic filter high direct voltage, the utility model provides a kind of high direct voltage based on high-power passive harmonic filter directly to drive LED circuit, and concrete structure is as follows:

High direct voltage based on high-power passive harmonic filter directly drives LED circuit, is in series successively by high-power passive harmonic filter HF, high power AC current rectifying and wave filtering circuit BF and LED high-voltage high power switch control circuit group.

Described high-power passive harmonic filter HF is inductance capacitance passive harmonic filter.This high-power passive harmonic filter HF is made up of LC harmonic network more than one-level, be responsible for the harmonic wave that filtering high power AC current rectifying and wave filtering circuit BF produces, guarantee that the power factor that high direct voltage provided by the utility model directly drives LED circuit is greater than 0.9, and humorous wave interference can be overcome---structure provided by the utility model resists the performance of humorous wave interference to be: 3 subharmonic are less than 20%, 5 subharmonic and are less than 8%, 7 subharmonic and are less than 5%, 9 subharmonic and are less than 4%, 11 to 39 subharmonic and are less than 2.5%.

Described high power AC current rectifying and wave filtering circuit BF, is responsible for carrying out rectification and filtering to the alternating voltage of input, and exports high direct voltage.In the utility model, high power AC current rectifying and wave filtering circuit BF is by 220 volts of alternating voltages of input, and the high direct voltage VH converting 311 volts to exports.

Described LED high-voltage high power switch control circuit group exports the voltage swing of high direct voltage VH according to high power AC current rectifying and wave filtering circuit BF, carries out switch control rule to LED load.This LED high-voltage high power switch control circuit group is in series by N level LED high-voltage high power switch control circuit head and the tail, and wherein, the span of N is between 2 to 50.

useful technique effect

High direct voltage based on high-power passive harmonic filter provided by the utility model is directly driven LED circuit and is not only overcome prior art passive harmonic filter high direct voltage and directly drive the too little problem of driving power that LED circuit exists, driving power up to hundreds of watts, power supply conversion efficiency efficiency high with 90%, power factor higher than 0.9, little, the unglazed stroboscopic of harmonic distortion, feature that reliability high cost is low, development and apply for high-power LED illumination technology is significant, has important social benefit and good economic benefit.

Accompanying drawing explanation

Fig. 1 is circuit theory diagrams of the present utility model.

Fig. 2 is the circuit theory diagrams of the utility model first embodiment (driving power is 500W).

Fig. 3 is the circuit theory diagrams of the utility model second embodiment (driving power is 300W).

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

See Fig. 1, the high direct voltage based on high-power passive harmonic filter directly drives LED circuit: be in series successively by high-power passive harmonic filter HF, high power AC current rectifying and wave filtering circuit BF and LED high-voltage high power switch control circuit group.Described high-power passive harmonic filter HF is inductance capacitance passive harmonic filter.This high-power passive harmonic filter HF is made up of LC harmonic network more than one-level, be responsible for the harmonic wave that filtering high power AC current rectifying and wave filtering circuit BF produces, guarantee that the power factor that high direct voltage provided by the utility model directly drives LED circuit is greater than 0.9, and humorous wave interference can be overcome---structure provided by the utility model resists the performance of humorous wave interference to be: 3 subharmonic are less than 20%, 5 subharmonic and are less than 8%, 7 subharmonic and are less than 5%, 9 subharmonic and are less than 4%, 11 to 39 subharmonic and are less than 2.5%.

Described high power AC current rectifying and wave filtering circuit BF, is responsible for carrying out rectification and filtering to the alternating voltage of input, and exports high direct voltage.In the utility model, the alternating voltage conversion being input as 220 volts is exported high direct voltage VH by high power AC current rectifying and wave filtering circuit BF, and this high direct voltage VH is about 311 volts.

The voltage swing that described LED high-voltage high power switch control circuit group exports high direct voltage VH according to high power AC current rectifying and wave filtering circuit BF carries out switch control rule to the number of LED load.

See Fig. 1, one of preferred scheme is: described high-power passive harmonic filter HF, is made up of the first inductance L 1, second inductance L 2, first electric capacity C1, the second electric capacity C2 and the 3rd electric capacity C3.Wherein, the two ends of the first inductance L 1 and the two ends of the first electric capacity C1 are in parallel, the two ends of the second inductance L 2 and the two ends of the second electric capacity C2 are in parallel, and one end of the first inductance L 1 is connected with one end of the 3rd electric capacity C3, and one end of the second inductance L 2 is connected with the other end of the 3rd electric capacity C3.

The other end of the first inductance L 1, the other end of the second inductance L 2 be the input of this high-power passive harmonic filter HF, the tie point between the first inductance L 1 and the 3rd electric capacity C3, tie point between the first inductance L 1 and the 3rd electric capacity C3 are the output of this high-power passive harmonic filter HF.

See Fig. 1, furtherly, the other end of the first inductance L 1 is held with the L of civil power and is connected, and the other end of the second inductance L 2 is held with the N of civil power and is connected.

See Fig. 3, two of preferred scheme is: described high-power passive harmonic filter HF, is made up of the first inductance L 1, first electric capacity C1 and the second electric capacity C2.Wherein, the two ends of the first inductance L 1 and the two ends of the first electric capacity C1 are in parallel, and one end of the first inductance L 1 is connected with one end of the second electric capacity C2.

The other end of the first inductance L 1 is first input of this high-power passive harmonic filter HF, tie point between first inductance L 1 and the second electric capacity C2 is first output of this high-power passive harmonic filter HF, and the other end of the second inductance L 2 is connected with second input of this high-power passive harmonic filter HF, second output respectively.

See Fig. 1, furtherly, described high power AC current rectifying and wave filtering circuit BF comprises ac high-voltage full-wave rectification bridge B1 and high-voltage filtering capacitor CH.Wherein, two ac input ends of ac high-voltage full-wave rectification bridge B1 are connected with two outputs of passive filter HF respectively, are in series with hv filtering resistance CH between the ac output end of ac high-voltage full-wave rectification bridge B1 and the earth terminal of electric main current rectifying and wave filtering circuit BF.

Hold GND to be tie point between the earth terminal of the rectification high-voltage output end VH of this high power AC current rectifying and wave filtering circuit BF, ac high-voltage full-wave rectification bridge B1 and hv filtering resistance CH the be reference of this high power AC current rectifying and wave filtering circuit BF of tie point between the ac output end of ac high-voltage full-wave rectification bridge B1 and hv filtering resistance CH.

See Fig. 1, furtherly, ac high-voltage full-wave rectification bridge device B1 is universal standard electronic device, and preferred scheme is, the model of ac high-voltage full-wave rectification bridge device B1 is KBU808, and its operating voltage is 800 volts, 8 amperes, electric current.。The positive pole of high-voltage filtering capacitor device CH is connected with the ac output end of ac high-voltage full-wave rectification bridge B1, and the negative pole of high-voltage filtering capacitor device CH is connected with the earth terminal of ac high-voltage full-wave rectification bridge B1.

See Fig. 1, furtherly, LED high-voltage high power switch control circuit group is in series by N level LED high-voltage high power switch control circuit head and the tail, and wherein, the span of N is between 2 to 50.Head and the tail series connection N level LED high-voltage high power switch control circuit be designated as successively: first order LED high-voltage high power switch control circuit EK1, second level LED high-voltage high power switch control circuit EK2 ..., N level LED high-voltage high power switch control circuit EKN.

The LED high-voltage high power switch control circuit of every one-level all comprises great power LED load group, high-power mos transistor T, switch control rule integrated circuit U, high pressure sampling resistor RH and current sampling resistor RS.

In the LED high-voltage high power switch control circuit of every one-level: the great power LED that great power LED load group props up series aiding connection by M is in series, the span of M between 10 to 100, the 1st great power LED is designated as LED1, the 2nd great power LED be designated as LED2 ..., M props up great power LED and is designated as LEDM.Wherein, the electric current of just very this grade of LED high-voltage high power switch control circuit of LED1 flows into end, and the negative pole of LEDM is the outflow of bus current end of this grade of LED high-voltage high power switch control circuit.U-shaped number of described switch control rule integrated circuit is G13, is Hefei Spruce Optoelectronic Technology Co., Ltd.'s product.Switch control rule integrated circuit U contains 5 pins, and its 1st pin is earth terminal, the 2nd pin is empty foot, the 3rd pin is high direct voltage sampling end, the 4th pin is switch control terminal, the 5th pin is current sample end.。

The 1st function pin of switch control rule integrated circuit U is connected with one end of current sampling resistor RS, the 3rd function pin of switch control rule integrated circuit U is connected with one end of high pressure sampling resistor RH, the 4th function pin of switch control rule integrated circuit U is connected with the grid of high-power mos transistor T, and the 5th function pin of switch control rule integrated circuit U links together with the source electrode of high-power mos transistor T, the other end of current sampling resistor RS respectively.

Tie point between the 1st function pin of switch control rule integrated circuit U and current sampling resistor RS connects with reference to ground, and the other end of high pressure sampling resistor RH is connected with the rectification high-pressure side VH in high power AC current rectifying and wave filtering circuit BF.

See Fig. 1, furtherly, the positive pole that in the LED high-voltage high power switch control circuit of previous stage, M props up the 1st great power LED in the negative pole of great power LED and the LED high-voltage high power switch control circuit of rear stage is connected.

Furtherly, high direct voltage directly drives the driving power of LED circuit is between 0.1 kilowatt to 10.0 kilowatts.

embodiment 1

See the circuit theory diagrams of Fig. 2, Fig. 2 to be the utility model power be 500W.Be in series successively by high-power passive harmonic filter HF, high power AC current rectifying and wave filtering circuit BF and LED high-voltage high power switch control circuit group.Described LED high-voltage high power switch control circuit group is made up of 4 grades of LED high-voltage high power switch control circuit EK1 to EK4.Wherein, high-power passive harmonic filter HF is by inductance L 1, L2 and electric capacity C1, C2 and C3 forms, L1 and C1 is in parallel, its one end is held with civil power L and is connected, the other end is an output of HF, L2 and C2 is in parallel, its one end is held with civil power N and is connected, the other end is another output of HF, high power AC commercial power rectification filter circuit BF comprises civil power high pressure full-wave rectification bridge B1 and high-voltage filtering capacitor CH, wherein two ac input ends of electric main current rectifying and wave filtering circuit BF are connected with two outputs of passive filter HF respectively, VH is the rectification high-voltage output end of BF, GND be the reference of BF hold, the anode of high-voltage filtering capacitor device CH is held with VH and is connected, negative terminal is connected with GND.The structure of 4 grades of LED high-voltage high-power high voltage ON-OFF control circuit (EK1, EK2, EK3 and EK4) is identical, be made up of the great power LED load of 25 series aiding connections respectively, great power LED wherein in EK1 is numbered LED1 to LED25, great power LED in EK2 is numbered LED26 to LED50, great power LED in EK3 is numbered LED51 to LED75, and the great power LED in EK4 is numbered LED76 to LED100.

In first order LED high-voltage high-power high voltage ON-OFF control circuit, also comprise first order high-power mos transistor T1, first order switch control rule integrated circuit U1, first order high pressure sampling resistor RH1 and first order current sampling resistor RS1.Wherein, the positive pole of LED1 and the negative pole of LED25 are electric current inflow end and the outflow end of first order great power LED ON-OFF control circuit respectively.The pin one of first order switch control rule integrated circuit U1 connects with reference to ground, the pin 3 of first order switch control rule integrated circuit U1 is connected with one end of first order high pressure sampling resistor RH1, the pin 4 of first order switch control rule integrated circuit U1 is connected with the grid of first order high-power mos transistor T1, the pin 5 of first order switch control rule integrated circuit U1 respectively with the source electrode of first order high-power mos transistor T1, and one end of first order current sampling resistor RS1 is connected, the other end of first order high pressure sampling resistor RH1 is connected with rectification high-pressure side VH, another termination of first order current sampling resistor RS1 is with reference to ground.In addition, the positive pole of first great power LED load LED1 in first order LED high-voltage high-power high voltage ON-OFF control circuit is connected with rectification high-pressure side VH, the negative pole of last great power LED load LED25 in first order LED high-voltage high-power high voltage ON-OFF control circuit is connected with the positive pole of first great power LED load LED26 in the drain electrode of first order high-power mos transistor T1, second level LED high-voltage high-power high voltage ON-OFF control circuit respectively.

In the LED high-voltage high-power high voltage ON-OFF control circuit of the second level, also comprise second level high-power mos transistor T2, second level switch control rule integrated circuit U2, second level high pressure sampling resistor RH2 and second level current sampling resistor RS2.Wherein, the positive pole of LED26 and the negative pole of LED50 are electric current inflow end and the outflow end of second level great power LED ON-OFF control circuit respectively.The pin one of second level switch control rule integrated circuit U2 connects with reference to ground, the pin 3 of second level switch control rule integrated circuit U2 is connected with one end of second level high pressure sampling resistor RH2, the pin 4 of second level switch control rule integrated circuit U2 is connected with the grid of second level high-power mos transistor T2, the pin 5 of second level switch control rule integrated circuit U2 respectively with the source electrode of second level high-power mos transistor T2, and one end of second level current sampling resistor RS2 is connected, the other end of second level high pressure sampling resistor RH2 is connected with rectification high-pressure side VH, another termination of second level current sampling resistor RS2 is with reference to ground.In addition, the negative pole of last the great power LED load LED50 in second level LED high-voltage high-power high voltage ON-OFF control circuit is connected with the positive pole of first great power LED load LED51 in the drain electrode of second level high-power mos transistor T2, third level LED high-voltage high-power high voltage ON-OFF control circuit respectively.

In third level LED high-voltage high-power high voltage ON-OFF control circuit, also comprise third level high-power mos transistor T3, third level switch control rule integrated circuit U3, third level high pressure sampling resistor RH3 and third level current sampling resistor RS3.Wherein, the positive pole of LED51 and the negative pole of LED75 are electric current inflow end and the outflow end of third level great power LED ON-OFF control circuit respectively.The pin one of third level switch control rule integrated circuit U3 connects with reference to ground, the pin 3 of third level switch control rule integrated circuit U3 is connected with one end of third level high pressure sampling resistor RH3, the pin 4 of third level switch control rule integrated circuit U3 is connected with the grid of third level high-power mos transistor T3, the pin 5 of third level switch control rule integrated circuit U3 respectively with the source electrode of third level high-power mos transistor T3, and one end of third level current sampling resistor RS3 is connected, the other end of third level high pressure sampling resistor RH3 is connected with rectification high-pressure side VH, another termination of third level current sampling resistor RS3 is with reference to ground.In addition, the negative pole of last the great power LED load LED75 in third level LED high-voltage high-power high voltage ON-OFF control circuit is connected with the positive pole of first great power LED load LED76 in the drain electrode of third level high-power mos transistor T3, fourth stage LED high-voltage high-power high voltage ON-OFF control circuit respectively.

In fourth stage LED high-voltage high-power high voltage ON-OFF control circuit, also comprise fourth stage high-power mos transistor T4, fourth stage switch control rule integrated circuit U4, fourth stage high pressure sampling resistor RH4 and fourth stage current sampling resistor RS4.Wherein, the positive pole of LED76 is the electric current inflow end of fourth stage great power LED ON-OFF control circuit.The pin one of fourth stage switch control rule integrated circuit U4 connects with reference to ground, the pin 3 of fourth stage switch control rule integrated circuit U4 is connected with one end of fourth stage high pressure sampling resistor RH4, the pin 4 of fourth stage switch control rule integrated circuit U4 is connected with the grid of fourth stage high-power mos transistor T4, the pin 5 of fourth stage switch control rule integrated circuit U4 respectively with the source electrode of fourth stage high-power mos transistor T4, and one end of fourth stage current sampling resistor RS4 is connected, the other end of fourth stage high pressure sampling resistor RH4 is connected with rectification high-pressure side VH, another termination of fourth stage current sampling resistor RS4 is with reference to ground.In addition, the negative pole of last the great power LED load LED100 in fourth stage LED high-voltage high-power high voltage ON-OFF control circuit is connected with the drain electrode of fourth stage high-power mos transistor T4.

In the present embodiment, high-power passive harmonic filter HF is made up of two-stage LC harmonic filter, wherein the inductance value of inductance L 1 and L2 is respectively 5mH, current capacity 3A, and the capacitance of electric capacity C1 and C2 is respectively 1 microfarad and voltage 400V, and the capacitance of electric capacity C3 is the X electric capacity of 2 microfarads.High power AC rectification circuit BF is made up of high power AC rectifier bridge B1 and high-voltage filtering capacitor CH, and wherein the model of BF is KBU808, such as Changzhou milky way Electronics Co., Ltd. product, and the capacitance of high-voltage filtering capacitor CH is 47 microfarads and voltage 630V.4 grades of LED high-voltage high power switch control circuits EK1, EK2, EK3 are identical with the structure of EK4, and wherein the forward voltage of the LED1 to LED100 of series aiding connection is 3.5V, electric current 1.5A, single LEDs power 5W.The model of switch control rule integrated circuit U1, U2, U3 and U4 is the G13 of Hefei Spruce Optoelectronic Technology Co., Ltd.'s production, the model of high-power mos transistor T1, T2, T3 and T4 is 11N80, for U.S.'s ON Products, high pressure sampling resistor RH1, RH2, RH3 are identical with the resistance of RH4 equals 1.2 megohms, and the resistance of current sampling resistor R1, R2, R3 and R4 is respectively 1 ohm, 0.82 ohm, 0.68 ohm and 0.51 ohm.

The technical parameter of LED drive circuit is as shown in Figure 2: driving power is more than or equal to 500W, power supply conversion efficiency is greater than 90%, power factor PF is greater than 0.98, total harmonic distortion is less than 10%, each harmonic meets CCC and CE requirement.

embodiment 2

See Fig. 3, the high direct voltage based on high-power passive harmonic filter directly drives LED circuit: be in series successively by high-power passive harmonic filter HF, high power AC current rectifying and wave filtering circuit BF and LED high-voltage high power switch control circuit group.

Described high-power passive harmonic filter HF is inductance capacitance passive harmonic filter.This high-power passive harmonic filter HF is made up of LC harmonic network more than one-level, be responsible for the harmonic wave that filtering high power AC current rectifying and wave filtering circuit BF produces, guarantee that high direct voltage provided by the utility model is directly driven LED circuit and had high and 0.9 power factor, and humorous wave interference can be overcome, wherein 3 subharmonic are less than 20%, 5 subharmonic and are less than 8%, 7 subharmonic and are less than 5%, 9 subharmonic and are less than 4%, 11 ~ 39 subharmonic and are less than 2.5%.

High power AC current rectifying and wave filtering circuit BF, the responsible rectification to input ac voltage and filtering export high direct voltage, and for being input as 220 volts of alternating voltages, the output high direct voltage VH of high power AC current rectifying and wave filtering circuit BF is about 311 volts.。

Described LED high-voltage high power switch control circuit group, it exports the voltage swing of high direct voltage VH according to high power AC current rectifying and wave filtering circuit BF, carries out switch control rule to the number of LED load.

See Fig. 3, furtherly, described high-power passive harmonic filter HF, is made up of the first inductance L 1, first electric capacity C1 and the second electric capacity C2.Wherein, the two ends of the first inductance L 1 and the two ends of the first electric capacity C1 are in parallel, and one end of the first inductance L 1 is connected with one end of the second electric capacity C2.The other end of the first inductance L 1 is first input of this high-power passive harmonic filter HF, tie point between first inductance L 1 and the second electric capacity C2 is first output of this high-power passive harmonic filter HF, and the other end of the second inductance L 2 is connected with second input of this high-power passive harmonic filter HF, second output respectively.

See Fig. 3, furtherly, described high power AC current rectifying and wave filtering circuit BF comprises ac high-voltage full-wave rectification bridge device B1 and high-voltage filtering capacitor CH.Wherein, two ac input ends of ac high-voltage full-wave rectification bridge B1 are connected with two outputs of passive filter HF respectively, are in series with hv filtering resistance CH between the ac output end of ac high-voltage full-wave rectification bridge B1 and the earth terminal of electric main current rectifying and wave filtering circuit BF.Hold GND to be tie point between the earth terminal of the rectification high-voltage output end VH of this high power AC current rectifying and wave filtering circuit BF, ac high-voltage full-wave rectification bridge B1 and hv filtering resistance CH the be reference of this high power AC current rectifying and wave filtering circuit BF of tie point between the ac output end of ac high-voltage full-wave rectification bridge B1 and hv filtering resistance CH.

See Fig. 3, furtherly, described LED high-voltage high power switch control circuit group is made up of 3 grades of LED high-voltage high power switch control circuit EK1 to EK3.3 grades of LED high-voltage high-power high voltage ON-OFF control circuit (EK1, EK2 and EK3) are made up of the great power LED load of 50,20,20 series aiding connections respectively, great power LED wherein in EK1 is numbered LED1 to LED50, great power LED in EK2 is numbered LED51 to LED70, and the great power LED in EK3 is numbered LED71 to LED90.

In first order LED high-voltage high-power high voltage ON-OFF control circuit, also comprise first order high-power mos transistor T1, first order switch control rule integrated circuit U1, first order high pressure sampling resistor RH1 and first order current sampling resistor RS1.Wherein, the positive pole of LED1 and the negative pole of LED50 are electric current inflow end and the outflow end of first order great power LED ON-OFF control circuit respectively.The pin one of first order switch control rule integrated circuit U1 connects with reference to ground, the pin 3 of first order switch control rule integrated circuit U1 is connected with one end of first order high pressure sampling resistor RH1, the pin 4 of first order switch control rule integrated circuit U1 is connected with the grid of first order high-power mos transistor T1, the pin 5 of first order switch control rule integrated circuit U1 respectively with the source electrode of first order high-power mos transistor T1, and one end of first order current sampling resistor RS1 is connected, the other end of first order high pressure sampling resistor RH1 is connected with rectification high-pressure side VH, another termination of first order current sampling resistor RS1 is with reference to ground.In addition, the positive pole of first great power LED load LED1 in first order LED high-voltage high-power high voltage ON-OFF control circuit is connected with rectification high-pressure side VH, the negative pole of last great power LED load LED50 in first order LED high-voltage high-power high voltage ON-OFF control circuit is connected with the positive pole of first great power LED load LED51 in the drain electrode of first order high-power mos transistor T1, second level LED high-voltage high-power high voltage ON-OFF control circuit respectively.

In the LED high-voltage high-power high voltage ON-OFF control circuit of the second level, also comprise second level high-power mos transistor T2, second level switch control rule integrated circuit U2, second level high pressure sampling resistor RH2 and second level current sampling resistor RS2.Wherein, the positive pole of LED51 and the negative pole of LED70 are electric current inflow end and the outflow end of second level great power LED ON-OFF control circuit respectively.The pin one of second level switch control rule integrated circuit U2 connects with reference to ground, the pin 3 of second level switch control rule integrated circuit U2 is connected with one end of second level high pressure sampling resistor RH2, the pin 4 of second level switch control rule integrated circuit U2 is connected with the grid of second level high-power mos transistor T2, the pin 5 of second level switch control rule integrated circuit U2 respectively with the source electrode of second level high-power mos transistor T2, and one end of second level current sampling resistor RS2 is connected, the other end of second level high pressure sampling resistor RH2 is connected with rectification high-pressure side VH, another termination of second level current sampling resistor RS2 is with reference to ground.In addition, the negative pole of last the great power LED load LED70 in second level LED high-voltage high-power high voltage ON-OFF control circuit is connected with the positive pole of first great power LED load LED71 in the drain electrode of second level high-power mos transistor T2, third level LED high-voltage high-power high voltage ON-OFF control circuit respectively.

In third level LED high-voltage high-power high voltage ON-OFF control circuit, also comprise third level high-power mos transistor T3, third level switch control rule integrated circuit U3, third level high pressure sampling resistor RH3 and third level current sampling resistor RS3.Wherein, the positive pole of LED71 is the electric current inflow end of third level great power LED ON-OFF control circuit.The pin one of third level switch control rule integrated circuit U3 connects with reference to ground, the pin 3 of third level switch control rule integrated circuit U3 is connected with one end of third level high pressure sampling resistor RH3, the pin 4 of third level switch control rule integrated circuit U3 is connected with the grid of third level high-power mos transistor T3, the pin 5 of third level switch control rule integrated circuit U3 respectively with the source electrode of third level high-power mos transistor T3, and one end of third level current sampling resistor RS3 is connected, the other end of third level high pressure sampling resistor RH3 is connected with rectification high-pressure side VH, another termination of third level current sampling resistor RS3 is with reference to ground.In addition, the negative pole of last the great power LED load LED90 in third level LED high-voltage high-power high voltage ON-OFF control circuit is connected with the drain electrode of third level high-power mos transistor T3.

In the present embodiment, Fig. 3 is that the powerful passive harmonic filter high direct voltage of 300W of the present utility model directly drives LED circuit figure.As shown in the figure, high-power passive harmonic filter HF is made up of one-level LC harmonic filter, and wherein the inductance value of inductance L 1 is 5mH, current capacity 2A, and the capacitance of electric capacity C1 is respectively 1 microfarad and voltage 400V, and the capacitance of electric capacity C2 is the X electric capacity of 1 microfarad.High power AC rectification circuit BF is made up of high power AC rectifier bridge B1 and high-voltage filtering capacitor CH, and wherein the model of BF is the capacitance of KBU808, CH is 33 microfarads and voltage 630V.3 grades of LED high-voltage high power switch control circuits EK1, EK2 are substantially identical with the structure of EK3, and wherein the forward voltage of the LED1 to LED90 of series aiding connection is 3.5V, electric current 1.0A, single LEDs power 3W.The model of switch control rule integrated circuit U1, U2 and U3 is G13, and G13 is Hefei dragon spruce Optoelectronics Technology limited production, and the model of high-power mos transistor T1, T2 and T3 is 11N80C, and 11N80C is U.S.'s ON Products.High pressure sampling resistor RH1, RH2 are identical with the resistance of RH3 equals 1.2 megohms, and the resistance of current sampling resistor R1, R2 and R3 is respectively 1.5 ohm, 1.2 ohm and 1.0 ohm.

The technical parameter of LED drive circuit is as shown in Figure 3: driving power equals 300W, power supply conversion efficiency is greater than 90%, power factor PF is greater than 0.96, total harmonic distortion is less than 15%, each harmonic meets CCC and CE requirement.

Claims (9)

1. the high direct voltage based on high-power passive harmonic filter directly drives LED circuit, it is characterized in that: be made up of the high-power passive harmonic filter HF, the high power AC current rectifying and wave filtering circuit BF that connect successively and LED high-voltage high power switch control circuit group;

Described high-power passive harmonic filter HF is inductance capacitance passive harmonic filter; This high-power passive harmonic filter HF is made up of LC harmonic network more than one-level, be responsible for the harmonic wave that filtering high power AC current rectifying and wave filtering circuit BF produces, guarantee that high direct voltage provided by the utility model is directly driven power factor that LED circuit has and is greater than 0.9, and humorous wave interference can be overcome;

Described high power AC current rectifying and wave filtering circuit BF, is responsible for carrying out rectification and filtering to the alternating voltage of input, exports high direct voltage;

Described LED high-voltage high power switch control circuit group, according to the voltage swing that high power AC current rectifying and wave filtering circuit BF exports high direct voltage VH, carries out switch control rule to LED load.

2. the high direct voltage based on high-power passive harmonic filter according to claim 1 directly drives LED circuit, it is characterized in that: described high-power passive harmonic filter HF, be made up of the first inductance L 1, second inductance L 2, first electric capacity C1, the second electric capacity C2 and the 3rd electric capacity C3; Wherein, the two ends of the first inductance L 1 and the two ends of the first electric capacity C1 are in parallel, the two ends of the second inductance L 2 and the two ends of the second electric capacity C2 are in parallel, and one end of the first inductance L 1 is connected with one end of the 3rd electric capacity C3, and one end of the second inductance L 2 is connected with the other end of the 3rd electric capacity C3;

The other end of the first inductance L 1, the other end of the second inductance L 2 be the input of this high-power passive harmonic filter HF, the tie point between the first inductance L 1 and the 3rd electric capacity C3, tie point between the first inductance L 1 and the 3rd electric capacity C3 are the output of this high-power passive harmonic filter HF.

3. the high direct voltage based on high-power passive harmonic filter according to claim 2 directly drives LED circuit, it is characterized in that: the other end of the first inductance L 1 is held with the L of civil power and is connected, and the other end of the second inductance L 2 is held with the N of civil power and is connected.

4. the high direct voltage based on high-power passive harmonic filter according to claim 1 directly drives LED circuit, it is characterized in that: described high-power passive harmonic filter HF, is made up of the first inductance L 1, first electric capacity C1 and the second electric capacity C2; Wherein, the two ends of the first inductance L 1 and the two ends of the first electric capacity C1 are in parallel, and one end of the first inductance L 1 is connected with one end of the second electric capacity C2;

The other end of the first inductance L 1 is first input of this high-power passive harmonic filter HF, tie point between first inductance L 1 and the second electric capacity C2 is first output of this high-power passive harmonic filter HF, and the other end of the second inductance L 2 is connected with second input of this high-power passive harmonic filter HF, second output respectively.

5. the high direct voltage based on high-power passive harmonic filter according to claim 2 directly drives LED circuit, it is characterized in that: described high power AC current rectifying and wave filtering circuit BF comprises ac high-voltage full-wave rectification bridge device B1 and high-voltage filtering capacitor CH; Wherein, two ac input ends of ac high-voltage full-wave rectification bridge B1 are connected with two outputs of passive filter HF respectively, are in series with hv filtering resistance CH between the ac output end of ac high-voltage full-wave rectification bridge B1 and the earth terminal of electric main current rectifying and wave filtering circuit BF;

Hold GND to be tie point between the earth terminal of the rectification high-voltage output end VH of this high power AC current rectifying and wave filtering circuit BF, ac high-voltage full-wave rectification bridge B1 and hv filtering resistance CH the be reference of this high power AC current rectifying and wave filtering circuit BF of tie point between the ac output end of ac high-voltage full-wave rectification bridge B1 and hv filtering resistance CH.

6. the high direct voltage based on high-power passive harmonic filter according to claim 5 directly drives LED circuit, it is characterized in that: the model of ac high-voltage full-wave rectification bridge device B1 is KBU808; Ac high-voltage full-wave rectification bridge device B1 withstand voltage is 800 volts, electric current is 8 amperes; Ac high-voltage full-wave rectification bridge device B1 contains 4 pins, and pin one and pin 4 are ac input end, pin two and pin 3 is DC high-voltage output end; The positive pole of high-voltage filtering capacitor device CH is connected with the ac output end of ac high-voltage full-wave rectification bridge B1, and the negative pole of high-voltage filtering capacitor device CH is connected with the earth terminal of ac high-voltage full-wave rectification bridge B1.

7. the high direct voltage based on high-power passive harmonic filter according to claim 5 directly drives LED circuit, it is characterized in that: LED high-voltage high power switch control circuit group is in series by N level LED high-voltage high power switch control circuit head and the tail, wherein, the span of N is between 2 to 50; Head and the tail series connection N level LED high-voltage high power switch control circuit be designated as successively: first order LED high-voltage high power switch control circuit EK1, second level LED high-voltage high power switch control circuit EK2 ..., N level LED high-voltage high power switch control circuit EKN;

The LED high-voltage high power switch control circuit of every one-level all comprises great power LED load group, high-power mos transistor T, switch control rule integrated circuit U, high pressure sampling resistor RH and current sampling resistor RS;

In the LED high-voltage high power switch control circuit of every one-level: the great power LED that great power LED load group props up series aiding connection by M is in series, the span of M between 10 to 100, the 1st great power LED is designated as LED1, the 2nd great power LED be designated as LED2 ..., M props up great power LED and is designated as LEDM; Wherein, the electric current of just very this grade of LED high-voltage high power switch control circuit of LED1 flows into end, and the negative pole of LEDM is the outflow of bus current end of this grade of LED high-voltage high power switch control circuit;

The model of described switch control rule integrated circuit U is G13, switch control rule integrated circuit U has 5 pins, wherein, the 1st pin is earth terminal, the 2nd pin is empty foot, the 3rd pin is high direct voltage sampling end, the 4th pin is switch control terminal, the 5th pin is current sample end;

The 1st function pin of switch control rule integrated circuit U is connected with one end of current sampling resistor RS, the 3rd function pin of switch control rule integrated circuit U is connected with one end of high pressure sampling resistor RH, the 4th function pin of switch control rule integrated circuit U is connected with the grid of high-power mos transistor T, and the 5th function pin of switch control rule integrated circuit U links together with the source electrode of high-power mos transistor T, the other end of current sampling resistor RS respectively;

Tie point between the 1st function pin of switch control rule integrated circuit U and current sampling resistor RS connects with reference to ground, and the other end of high pressure sampling resistor RH is connected with the rectification high-pressure side VH in high power AC current rectifying and wave filtering circuit BF.

8. the high direct voltage based on high-power passive harmonic filter according to claim 7 directly drives LED circuit, it is characterized in that: the positive pole that in the LED high-voltage high power switch control circuit of previous stage, M props up the 1st great power LED in the negative pole of great power LED and the LED high-voltage high power switch control circuit of rear stage is connected.

9. the high direct voltage based on high-power passive harmonic filter according to claim 7 directly drives LED circuit, it is characterized in that: the driving power that high direct voltage directly drives LED circuit is between 0.1 kilowatt to 10.0 kilowatts.