CN103179756A

CN103179756A - LED (light-emitting diode) linear constant current drive controller with wide input voltage range

Info

Publication number: CN103179756A
Application number: CN2013100887824A
Authority: CN
Inventors: 林道明; 李照华; 赵春波; 胡乔; 谢靖; 付凌云
Original assignee: Shenzhen Mingwei Electronic Co Ltd
Current assignee: Shenzhen Mingwei Electronic Co Ltd
Priority date: 2013-03-19
Filing date: 2013-03-19
Publication date: 2013-06-26
Anticipated expiration: 2033-03-19
Also published as: CN103179756B

Abstract

The invention belongs to the field of LED (light-emitting diode) driving circuit design, and provides an LED linear constant current drive controller, with a wide input voltage range, and an LED driving device. The controller samples voltage output by a rectifying and filtering circuit through a voltage sampling circuit; if the voltage value is too high or too low, the voltage is regulated through a voltage regulation circuit, and then is output to an light-emitting diode unit which is served as load, so that normal breakover of the light-emitting diode unit is guaranteed, wide-range control to the voltage input to the rectifying and filtering circuit is also realized, and the controller is safe and reliable. Compared with a constant current drive controlling circuit of the existing flyback or DC-DC (direct current to direct current) buck-boost switching power supply, the LED linear constant current drive controller has the advantages that as a linear driving mode is adopted, an input circuit and an output circuit belong to an identical circuit, and the structure is simpler; and compared with the existing linear LED linear constant current driving control circuit, the LED linear constant current drive controller has the advantages that wide-range control to input voltage is realized, the applicability is higher, and circuits can not be burnt when the input voltage is too high.

Description

A kind of linear constant current driving governor of LED with wide input voltage range

Technical field

The invention belongs to the LED drive circuit design field, relate in particular to a kind of linear constant current driving governor of LED and LED drive unit with wide input voltage range.

Background technology

At present, the LED drive unit has two kinds of implementations:

A kind of is the constant current Drive and Control Circuit of the Switching Power Supply class of inverse-excitation type or DC-DC buck.Owing to there being the energy-storage travelling wave tubes such as transformer or inductance in this kind circuit topological structure, making the importation of circuit is the current circuit that separates with output, the output voltage voltage sum of the LED unit of load (namely as) is not subjected to the restriction of input voltage, changes so input voltage can be realized wide region.But this kind constant current Drive and Control Circuit complex structure, the circuit board volume that takies is large, and cost is high, is unfavorable for producing and promoting.

Another kind is linear LED constant current Drive and Control Circuit.Existing linear LED constant current Drive and Control Circuit as shown in Figure 1, it comprises input voltage Vac is carried out the rectifier bridge that rectification is processed, is made of diode D1, diode D2, diode D3 and diode D4, voltage to rectifier bridge output carries out the capacitor C 1 that filtering is processed, and the LED unit as load is carried out the constant-current controller that constant current is controlled.As seen, the energy-storage travelling wave tubes such as transless or inductance in such topological structure, thereby importation and output coexist in a current circuit.As the voltage sum of the LED unit of load must be less than the input voltage amplitude time, could keep the LED unit to have electric current to pass through, because the voltage of LED unit is fixed, therefore the input voltage amplitude can not be lower than the voltage at two ends, LED unit, thereby make input voltage can't realize that wide region changes.For fixing LED unit, if input voltage is too high, can cause the loss of constant-current controller to strengthen simultaneously, when working long hours, even can burn out constant-current controller, further limit the excursion of input voltage.

Summary of the invention

The purpose of the embodiment of the present invention is to provide a kind of linear constant current driving governor of LED with wide input voltage range, be intended to solve in existing linear LED constant current Drive and Control Circuit, the amplitude of input voltage need be not less than the voltage as the two ends, LED unit of load, and for fear of circuit burnout and must not be too high, can't realize the problem that wide region changes.

The embodiment of the present invention is achieved in that a kind of linear constant current driving governor of LED with wide input voltage range, and the described linear constant current driving governor of LED with wide input voltage range comprises:

Voltage sampling circuit is used for the voltage of sampling LED drive unit, current rectifying and wave filtering circuit output, and exports the sampled result signal;

Voltage regulator circuit is used for according to described sampled result signal, after the size of the voltage of described current rectifying and wave filtering circuit output is regulated, exports to the positive input terminal as the light emitting diode of load;

Constant-current control circuit is used for that described light emitting diode is carried out constant current and controls.

Another purpose of the embodiment of the present invention is to provide a kind of LED drive unit, comprises current rectifying and wave filtering circuit, and described LED drive unit also comprises the linear constant current driving governor of LED with wide input voltage range as above.

The linear constant current driving governor of LED that the embodiment of the present invention provides has a wide input voltage range is by the voltage sampling circuit voltage that current rectifying and wave filtering circuit exports of sample, if its magnitude of voltage is too high or too low, after adjusted by voltage regulator circuit, export to the light emitting diode as load, thereby in the situation that guarantee the light emitting diode normally, also realized the wide region of the input voltage that is input to current rectifying and wave filtering circuit adjustable, and safe and reliable.Constant current Drive and Control Circuit with respect to the Switching Power Supply class of existing inverse-excitation type or DC-DC buck, this linear constant current driving governor of LED with wide input voltage range is to have adopted linear drive mode, input circuit and output loop are the same circuit, thereby structure is simpler; With respect to existing linear LED constant current Drive and Control Circuit, this linear constant current driving governor of LED with wide input voltage range has realized that the wide region of input voltage is adjustable, and application is stronger, and can not burn because input voltage is too high circuit.

Description of drawings

Fig. 1 is the circuit diagram of the linear LED constant current Drive and Control Circuit that provides of prior art;

Fig. 2 is the circuit theory diagrams of the linear constant current driving governor of the LED with wide input voltage range that provides of the embodiment of the present invention;

Fig. 3 is the circuit theory diagrams of voltage regulator circuit in Fig. 2;

Fig. 4 is the circuit diagram of voltage sampling circuit in Fig. 2;

Fig. 5 is the circuit diagram of voltage selecting circuit in Fig. 3;

Fig. 6 is the circuit diagram of constant-current control circuit in Fig. 2;

Fig. 7 is the circuit diagram of light emitting diode in Fig. 2.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, is not intended to limit the present invention.

Problem for the prior art existence, the present invention proposes a kind of linear constant current driving governor of LED with wide input voltage range, it is by the sample voltage of current rectifying and wave filtering circuit output of voltage sampling circuit, if its magnitude of voltage is too high or too low, after adjusted by voltage regulator circuit, export to the light emitting diode as load.

Fig. 2 shows the circuit theory of the linear constant current driving governor of the LED with wide input voltage range that the embodiment of the present invention provides, and for convenience of explanation, only shows the part relevant to the embodiment of the present invention.

Specifically, the linear constant current driving governor of the LED with wide input voltage range that the embodiment of the present invention provides comprises: voltage sampling circuit 12, the input of voltage sampling circuit 12 connects the output of current rectifying and wave filtering circuit, the voltage Vinp that is used for sampling LED drive unit, current rectifying and wave filtering circuit output, and output sampled result signal; Voltage regulator circuit 11, the input of voltage regulator circuit 11 connects the output of voltage sampling circuit 12, the power end of voltage regulator circuit 11 connects the output of current rectifying and wave filtering circuit, the output of voltage regulator circuit 11 connects the positive input terminal as the light emitting diode of load, be used for according to the sampled result signal, after the size of the voltage Vinp of current rectifying and wave filtering circuit output is regulated, export to the positive input terminal of light emitting diode; Constant-current control circuit 13, the negative input end of the input connecting luminous diode unit of constant-current control circuit 13 is used for that light emitting diode is carried out constant current and controls.

The linear constant current driving governor of the LED with wide input voltage range that the embodiment of the present invention provides is by the voltage of voltage sampling circuit 12 sampling current rectifying and wave filtering circuit outputs, if its magnitude of voltage is too high or too low, after adjusted by voltage regulator circuit 11, export to the light emitting diode as load, thereby in the situation that guarantee the light emitting diode normally, also realized the wide region of the input voltage that is input to current rectifying and wave filtering circuit adjustable, and safe and reliable.Constant current Drive and Control Circuit with respect to the Switching Power Supply class of existing inverse-excitation type or DC-DC buck, this linear constant current driving governor of LED with wide input voltage range is to have adopted linear drive mode, input circuit and output loop are the same circuit, thereby structure is simpler; With respect to existing linear LED constant current Drive and Control Circuit, this linear constant current driving governor of LED with wide input voltage range has realized that the wide region of input voltage is adjustable, and application is stronger, and can not burn because input voltage is too high circuit.

Fig. 3 further shows the circuit theory of voltage regulator circuit 11 in Fig. 2.

particularly, voltage regulator circuit 11 can comprise: voltage selecting circuit 111, booster circuit 112 and/or reduction voltage circuit 113, voltage selecting circuit 111, the input of voltage selecting circuit 111 connects the output of voltage sampling circuit 12 as the input of voltage regulator circuit 11, the power end of voltage selecting circuit 111 connects the output of current rectifying and wave filtering circuit as the power end of voltage regulator circuit, the output of voltage selecting circuit 111 connects positive input terminal as the light emitting diode of load as the output of voltage regulator circuit 11, the control end of voltage selecting circuit 111 connects booster circuit 112 and/or reduction voltage circuit 113, voltage selecting circuit 111 is used for according to the sampled result signal, if the voltage Vinp of current rectifying and wave filtering circuit output is less than the second preset value, the voltage Vinp that controls the output of the 112 pairs of current rectifying and wave filtering circuits of the booster circuit processing of boosting, and booster circuit 112 is boosted Voltage-output after processing to the positive input terminal of light emitting diode, and/or according to the sampled result signal, if the voltage Vinp of current rectifying and wave filtering circuit output is greater than the first preset value, the voltage Vinp of 113 pairs of current rectifying and wave filtering circuit outputs of controlled hypotension circuit carries out the step-down processing, and the Voltage-output after reduction voltage circuit 113 step-downs are processed is to the positive input terminal of light emitting diode, voltage selecting circuit 111 also is used for according to the sampled result signal, if the voltage Vinp of current rectifying and wave filtering circuit output is not more than the first preset value and is not less than the second preset value, directly the voltage Vinp of current rectifying and wave filtering circuit output is exported to the positive input terminal of light emitting diode.

Fig. 4 shows the circuit of voltage sampling circuit 12 in Fig. 2.

Particularly, voltage sampling circuit 12 can comprise: resistance R 1, resistance R 2, resistance R 3, comparator U1 and comparator U2.Wherein, resistance R 3, resistance R 2 and resistance R 1 are connected between the output and ground of current rectifying and wave filtering circuit successively, and the end that is not connected with resistance R 2 of resistance R 3 is as the input of voltage sampling circuit 12; The end that resistance R 3 is connected with resistance R 2 connect simultaneously the in-phase end of comparator U1+, the end of oppisite phase of comparator U1-connection the first reference voltage V rh; The end that resistance R 2 is connected with resistance R 1 connect simultaneously the in-phase end of comparator U2+, the end of oppisite phase of comparator U2-connection the second reference voltage V rl; The output of comparator U1 is connected output jointly as the output of voltage sampling circuit 12 and connect the input of voltage selecting circuit 111 with comparator U2.

Fig. 5 shows the circuit of voltage selecting circuit 111 in Fig. 3.

Particularly, voltage selecting circuit 111 can comprise: the metal-oxide-semiconductor Q4 of the metal-oxide-semiconductor Q2 of the metal oxide semiconductor field effect tube of N raceway groove (hereinafter to be referred as metal-oxide-semiconductor) Q1, N raceway groove, the metal-oxide-semiconductor Q3 of N raceway groove, N raceway groove, the metal-oxide-semiconductor Q5 of N raceway groove, with a door U3, inverter U4, NOR gate U5 and NOR gate U6.Wherein, the drain electrode of the drain electrode of the metal-oxide-semiconductor Q4 of N raceway groove, the metal-oxide-semiconductor Q3 of N raceway groove is connected the drain electrode of metal-oxide-semiconductor Q1 and is connected with the N raceway groove, and jointly connects the output of current rectifying and wave filtering circuit; The source electrode of the source electrode of the metal-oxide-semiconductor Q5 of N raceway groove, the metal-oxide-semiconductor Q3 of N raceway groove is connected the source electrode of metal-oxide-semiconductor Q2 and is connected with the N raceway groove, and the positive input terminal of common connecting luminous diode unit; The grid of the metal-oxide-semiconductor Q4 of N raceway groove connects the grid of the metal-oxide-semiconductor Q5 of N raceway groove, and the output of common connection and door U3; The grid of the metal-oxide-semiconductor Q1 of N raceway groove connects the grid of the metal-oxide-semiconductor Q2 of N raceway groove, and jointly connects the output of NOR gate U6; The grid of the metal-oxide-semiconductor Q3 of N raceway groove connects the output of NOR gate U5; Be connected input of NOR gate U5 and the input of NOR gate U6 with the input of door U3, and jointly connect the output of voltage sampling circuit 12, with reference to figure 4, connect the output of comparator U1; Be connected the input of inverter and another input of NOR gate U6 with another input of door U3, and jointly connect the output of voltage sampling circuit 12, with reference to figure 4, connect the output of comparator U2; The output of inverter U4 connects another input of NOR gate U5; The source electrode of the metal-oxide-semiconductor Q4 of N raceway groove is connected the drain electrode of metal-oxide-semiconductor Q5 and is connected step-down voltage 113 with the N raceway groove, the source electrode of the metal-oxide-semiconductor Q1 of N raceway groove is connected the drain electrode of metal-oxide-semiconductor Q2 and is connected booster circuit 112 with the N raceway groove.

Fig. 6 shows the circuit of constant-current control circuit 13 in Fig. 2.

Particularly, constant-current control circuit 13 comprises: the metal-oxide-semiconductor Q6 of error amplifier U7, N raceway groove and resistance R 4.Wherein, the in-phase end of error amplifier U7+connection the 3rd reference voltage V r3, the end of oppisite phase of error amplifier U7-by resistance R 4 ground connection, the output of error amplifier U7 connects the grid of the metal-oxide-semiconductor Q6 of N raceway groove; The drain electrode of the metal-oxide-semiconductor Q6 of N raceway groove is as the negative input end of the input connecting luminous diode unit of constant-current control circuit 13; The end of oppisite phase of the source electrode connection error amplifier U7 of the metal-oxide-semiconductor Q6 of N raceway groove-.

Fig. 7 shows the circuit of light emitting diode in Fig. 2.

In the embodiment of the present invention, light emitting diode as load can comprise at least one group of light-emitting diode group, when if light emitting diode comprises two groups or more light-emitting diode group, this two groups or more light-emitting diode group connection parallel with one another.Each light-emitting diode group comprises again at least one light-emitting diode, if when the light-emitting diode group comprises two or more light-emitting diode, these two or more light-emitting diode head and the tail connect in turn.The anode of light-emitting diode group is as the positive input terminal of light emitting diode, and the negative electrode of light-emitting diode group is as the negative input end of light emitting diode.

In the embodiment of the present invention, booster circuit 112 can adopt existing charge pump construction to realize, and can adopt one or more levels structure of boosting, and concrete structure is known in this field, is not repeated herein; Reduction voltage circuit 113 can adopt existing linear voltage regulator structure, and concrete structure is known in this field, is not repeated herein.Below in conjunction with Fig. 4 to Fig. 7, describe the operation principle of foregoing circuit in detail:

Suppose that the first preset value is VH, the second preset value is VL, and VH is arranged〉VL.For voltage sampling circuit 12, as the output voltage V inp of current rectifying and wave filtering circuit during lower than the second preset value VL, be electric resistance partial pressure lower than comparator U2 end of oppisite phase-the second reference voltage V rl the time, the output level EN1 of comparator U2 is low level (being designated as 0), the output voltage V inp of current rectifying and wave filtering circuit is lower than the first preset value VH at this moment, electric resistance partial pressure lower than comparator U1 end of oppisite phase-the first reference voltage V rh, therefore the output level EN2 of comparator U1 is low level (being designated as 0), the sampled result signal of voltage sampling circuit 12 outputs is 00; When the output voltage V inp of current rectifying and wave filtering circuit is less than or equal to the first preset value VH and is VL more than or equal to the second preset value, be electric resistance partial pressure lower than comparator U1 end of oppisite phase-the first reference voltage V rh, therefore the output level EN2 of comparator U1 is low level (being designated as 0), and electric resistance partial pressure higher than comparator U2 end of oppisite phase-the second reference voltage V rl the time, therefore the output level EN1 of comparator U2 is high level (being designated as 1), the sampled result signal of voltage sampling circuit 12 outputs is 10; As the output voltage V inp of current rectifying and wave filtering circuit during higher than the first preset value VH, be electric resistance partial pressure higher than comparator U1 end of oppisite phase-the first reference voltage V rh, therefore the output level EN2 of comparator U1 is high level (being designated as 1), the output voltage V inp of current rectifying and wave filtering circuit is higher than the second preset value VL at this moment, be electric resistance partial pressure higher than comparator U2 end of oppisite phase-the second reference voltage V rl, therefore the output level EN1 of comparator U2 is high level (being designated as 1), the sampled result signal of voltage sampling circuit 12 outputs is 11.

For voltage regulator circuit 11, when the sampled result signal is 00, the metal-oxide-semiconductor Q2 conducting of the metal-oxide-semiconductor Q1 of the N raceway groove of voltage selecting circuit 111 inside and N raceway groove, voltage V1a after the metal-oxide-semiconductor Q1 transmission of the output voltage V inp process N raceway groove of current rectifying and wave filtering circuit is input to booster voltage 112, after the voltage V1a of 112 pairs of inputs of booster circuit did the processing of boosting, output voltage V 1b outputed to the positive input terminal Voutp of light emitting diode through the metal-oxide-semiconductor Q2 of N raceway groove.When the sampled result signal is 10, the metal-oxide-semiconductor Q3 conducting of the inner N raceway groove of voltage selecting circuit 111, the output voltage V inp of current rectifying and wave filtering circuit outputs to the positive input terminal Voutp of light emitting diode through the metal-oxide-semiconductor Q3 of N raceway groove.When the sampled result signal is 11, the metal-oxide-semiconductor Q5 conducting of the metal-oxide-semiconductor Q4 of the inner N raceway groove of voltage selecting circuit 111 and N raceway groove, voltage V2a after the metal-oxide-semiconductor Q4 transmission of the output voltage V inp process N raceway groove of current rectifying and wave filtering circuit is input to step-down voltage 113, after 113 pairs of input voltages of reduction voltage circuit were done the step-down processing, output voltage V 2b outputed to the positive input terminal Voutp of light emitting diode through the metal-oxide-semiconductor Q5 of N raceway groove.Processing by voltage regulator circuit 11, can make the output voltage V inp of light-emitting diode list current rectifying and wave filtering circuit is to change between VH and the second preset value VL at the first preset value, thereby the wide region of realizing input voltage is adjustable, and guarantees that circuit can not be burned due to too high voltage fluctuation.

For constant-current control circuit 13, the value of the 3rd reference voltage V r3 wherein and the resistance of resistance R 4 have determined the constant current operating current of light emitting diode, suppose that this constant current operating current is I _led, I is arranged _led=Vr3/R4.

The embodiment of the present invention also provides a kind of LED drive unit, comprises current rectifying and wave filtering circuit as shown in Figure 1, and the linear constant current driving governor of LED with wide input voltage range as above, is not repeated herein.

The linear constant current driving governor of the LED with wide input voltage range that the embodiment of the present invention provides is by the voltage of voltage sampling circuit 12 sampling current rectifying and wave filtering circuit outputs, if its magnitude of voltage is too high or too low, after adjusted by voltage regulator circuit 11, export to the light emitting diode as load, thereby in the situation that guarantee the light emitting diode normally, also realized the wide region of the input voltage that is input to current rectifying and wave filtering circuit adjustable, and safe and reliable.Constant current Drive and Control Circuit with respect to the Switching Power Supply class of existing inverse-excitation type or DC-DC buck, this linear constant current driving governor of LED with wide input voltage range is to have adopted linear drive mode, input circuit and output loop are the same circuit, thereby structure is simpler; With respect to existing linear LED constant current Drive and Control Circuit, this linear constant current driving governor of LED with wide input voltage range has realized that the wide region of input voltage is adjustable, and application is stronger, and can not make because input voltage is too high and burn circuit.

One of ordinary skill in the art will appreciate that all or part of step that realizes in above-described embodiment method is can control relevant hardware by program to complete, described program can be in being stored in a computer read/write memory medium, described storage medium is as ROM/RAM, disk, CD etc.

The above is only preferred embodiment of the present invention, not in order to limiting the present invention, all any modifications of doing within the spirit and principles in the present invention, is equal to and replaces and improvement etc., within all should being included in protection scope of the present invention.

Claims

1. the linear constant current driving governor of LED with wide input voltage range, is characterized in that, the described linear constant current driving governor of LED with wide input voltage range comprises:

2. the linear constant current driving governor of LED with wide input voltage range as claimed in claim 1, is characterized in that, described voltage regulator circuit comprises voltage selecting circuit, and described voltage regulator circuit also comprises booster circuit and/or reduction voltage circuit;

described voltage selecting circuit is used for according to described sampled result signal, if the voltage of described current rectifying and wave filtering circuit output is less than the second preset value, control described booster circuit to the processing of boosting of the voltage of described current rectifying and wave filtering circuit output, and described booster circuit is boosted Voltage-output after processing to the positive input terminal of described light emitting diode, and/or according to described sampled result signal, if the voltage of described current rectifying and wave filtering circuit output is greater than the first preset value, controlling described reduction voltage circuit carries out step-down to the voltage of described current rectifying and wave filtering circuit output and processes, and the Voltage-output after described reduction voltage circuit step-down is processed is to the positive input terminal of described light emitting diode.

3. the linear constant current driving governor of the LED with wide input voltage range as claimed in claim 2, it is characterized in that, described voltage selecting circuit also is used for according to described sampled result signal, if the voltage of described current rectifying and wave filtering circuit output is not more than the first preset value and is not less than the second preset value, directly the Voltage-output of described current rectifying and wave filtering circuit output is given the positive input terminal of described light emitting diode.

4. the linear constant current driving governor of LED with wide input voltage range as claimed in claim 2, is characterized in that, described voltage sampling circuit comprises: resistance R 1, resistance R 2, resistance R 3, comparator U1 and comparator U2;

Described resistance R 3, described resistance R 2 and described resistance R 1 are connected between the output and ground of described current rectifying and wave filtering circuit successively; The end that described resistance R 3 is connected with described resistance R 2 connects the in-phase end of described comparator U1 simultaneously, and the end of oppisite phase of described comparator U1 connects the first reference voltage; The end that described resistance R 2 is connected with described resistance R 1 connects the in-phase end of described comparator U2 simultaneously, and the end of oppisite phase of described comparator U2 connects the second reference voltage; The output of described comparator U1 be connected the output of comparator U2 and connect the input of described voltage selecting circuit.

5. the linear constant current driving governor of the LED with wide input voltage range as claimed in claim 2, it is characterized in that, described voltage selecting circuit comprises: the metal-oxide-semiconductor Q5 of the metal-oxide-semiconductor Q3 of the metal-oxide-semiconductor Q1 of N raceway groove, the metal-oxide-semiconductor Q2 of N raceway groove, N raceway groove, the metal-oxide-semiconductor Q4 of N raceway groove, N raceway groove, with a door U3, inverter U4, NOR gate U5 and NOR gate U6;

The drain electrode of the drain electrode of the metal-oxide-semiconductor Q4 of described N raceway groove, the metal-oxide-semiconductor Q3 of described N raceway groove be connected the drain electrode of metal-oxide-semiconductor Q1 of N raceway groove and connect, and jointly connect the output of described current rectifying and wave filtering circuit; The source electrode of the source electrode of the metal-oxide-semiconductor Q5 of described N raceway groove, the metal-oxide-semiconductor Q3 of described N raceway groove be connected the source electrode of metal-oxide-semiconductor Q2 of N raceway groove and connect, and jointly connect the positive input terminal of described light emitting diode; The grid of the metal-oxide-semiconductor Q4 of described N raceway groove connects the grid of the metal-oxide-semiconductor Q5 of described N raceway groove, and jointly connects output described and door U3; The grid of the metal-oxide-semiconductor Q1 of described N raceway groove connects the grid of the metal-oxide-semiconductor Q2 of described N raceway groove, and jointly connects the output of described NOR gate U6; The grid of the metal-oxide-semiconductor Q3 of described N raceway groove connects the output of described NOR gate U5; A described input with door U3 is connected the input of described NOR gate U5 and the input of described NOR gate U6, and jointly connects the output of described voltage sampling circuit; Described another input with door U3 is connected the input of described inverter U4 and another input of described NOR gate U6, and jointly connects the output of described voltage sampling circuit; The output of described inverter U4 connects another input of described NOR gate U5; The source electrode of the metal-oxide-semiconductor Q4 of described N raceway groove be connected the drain electrode of metal-oxide-semiconductor Q5 of N raceway groove and connect described step-down voltage, the source electrode of the metal-oxide-semiconductor Q1 of described N raceway groove be connected the drain electrode of metal-oxide-semiconductor Q2 of N raceway groove and connect described booster circuit.

6. the linear constant current driving governor of LED with wide input voltage range as claimed in claim 1, is characterized in that, described constant-current control circuit comprises: the metal-oxide-semiconductor Q6 of error amplifier U7, N raceway groove and resistance R 4;

The in-phase end of described error amplifier U7 connects the 3rd reference voltage, and the end of oppisite phase of described error amplifier U7 is by described resistance R 4 ground connection, and the output of described error amplifier U7 connects the grid of the metal-oxide-semiconductor Q6 of described N raceway groove; The drain electrode of the metal-oxide-semiconductor Q6 of described N raceway groove connects the negative input end of described light emitting diode; The source electrode of the metal-oxide-semiconductor Q6 of described N raceway groove connects the end of oppisite phase of described error amplifier U7.

7. the linear constant current driving governor of the LED with wide input voltage range as claimed in claim 1, it is characterized in that, described light emitting diode comprises at least one group of light-emitting diode group parallel with one another, and each light-emitting diode group comprises the light-emitting diode that at least one head and the tail connects in turn.

8. a LED drive unit, comprise current rectifying and wave filtering circuit, it is characterized in that, described LED drive unit also comprises the linear constant current driving governor of LED with wide input voltage range as described in claim 1 to 7 any one.