CN204482092U - A kind of non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification - Google Patents

Abstract

The utility model discloses a kind of non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification, comprise alternating current input, rectification filtering module, for providing the PWM control module of constant drive current and the electric current for exporting PWM control module to carry out rectification for external LED lamp group, the synchronous rectification module that detects voltage between the drain electrode of self rectifier switch pipe and source electrode, open rectifier switch pipe when this voltage reaches turn-on threshold voltage, turn off rectifier switch pipe when this voltage reaches shutoff voltage.Described LED drive circuit is by synchronous rectification module, and improve conversion efficiency, EMI is low, and output current adapts to the change of inductance value and the change of output voltage automatically, thus really achieves constant-current driving LED.Rectifier switch pipe is set in synchronous rectification module, instead of traditional Schottky diode and carry out rectification, solve the problem that the power loss that causes because of diode forward pressure drop is large, reduce rectifier loss.

Description

A kind of non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification

Technical field

The utility model relates to Switching Power Supply and synchronous rectification field, the non-isolated voltage-dropping type LED drive circuit of particularly a kind of intelligent synchronization rectification.

Background technology

In recent years, the development of electronic technology, such that the operating voltage of circuit is more and more lower, electric current is increasing.Low voltage operating is conducive to the overall power consumption reducing circuit, but also proposes a new difficult problem to Power Management Design.

The loss of Switching Power Supply forms primarily of 3 parts: the loss of power switch pipe, the loss of high frequency transformer, the loss of output rectifying tube.When low-voltage, High-current output, the conduction voltage drop of rectifier diode is higher, and the loss of output rectifying tube is particularly outstanding.The forward voltage drop of fast recovery diode can reach 1.0V ~ 1.2V, even if adopt the Schottky diode of low conduction voltage drop also can produce the pressure drop of about 0.6V, this will cause rectifier loss large, and power-efficient reduces.

Thus prior art need to improve.

Utility model content

In view of above-mentioned the deficiencies in the prior art part, the purpose of this utility model is the non-isolated voltage-dropping type LED drive circuit providing a kind of intelligent synchronization rectification, by adopting synchronous rectification module, improve conversion efficiency, EMI is low, output current adapts to the change of inductance value and the change of output voltage automatically, thus really achieves constant-current driving LED.

In order to achieve the above object, the utility model takes following technical scheme:

A non-isolated voltage-dropping type LED drive circuit for intelligent synchronization rectification, comprising:

Alternating current input;

Rectification filtering module;

For providing the PWM control module of constant drive current for external LED lamp group;

Electric current for exporting PWM control module carries out rectification, detect the voltage between the drain electrode of self rectifier switch pipe and source electrode, open rectifier switch pipe when this voltage reaches turn-on threshold voltage, turn off the synchronous rectification module of rectifier switch pipe when this voltage reaches shutoff voltage;

Described alternating current input connects PWM control module by rectification filtering module, and described PWM control module also connects synchronous rectification module.

In the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification, described synchronous rectification module comprises synchronous rectification chip, and wherein, described synchronous rectification chip comprises:

Rectifier switch pipe;

For detecting the voltage between the drain electrode of rectifier switch pipe and source electrode, and export to the sampling unit of following logic control element;

Export control signal when reaching turn-on threshold voltage for the voltage between the drain electrode and source electrode of rectifier switch pipe rectifier switch pipe to be opened, exports the logic control element that control signal makes rectifier switch pipe turn off when described voltage reaches shutoff voltage;

For the control signal produced according to logic control element, drive the driver element of rectifier switch pipe break-make;

The input of described sampling unit is the SENSE end of synchronous rectification chip; The output of described sampling unit connects the input of logic control element, and the output of described logic control element is the vdd terminal of synchronous rectification chip; The output of described driver element connects the grid of rectifier switch pipe; The source electrode of described rectifier switch pipe is the VSS end of synchronous rectification chip; The drain electrode of described rectifier switch pipe is the VD end of synchronous rectification chip.

In the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification, described PWM control module comprises pwm chip, inductance, the first diode, the second diode, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, the 6th resistance, the first electric capacity and the second electric capacity; Described alternating current input connects one end of the first resistance, the 5th pin of pwm chip and the 6th pin by rectification filtering module; The other end of described first resistance connects the second pin of the negative pole of the first diode, one end of the first electric capacity and pwm chip; 4th pin of described pwm chip connects one end of inductance, the VD end of synchronous rectification chip, the SENSE end of synchronous rectification chip, one end of the 3rd resistance, the other end of the first electric capacity, the 7th pin of pwm chip and the 8th pin by the second resistance; The positive pole that the other end of described inductance connects external LED lamp group, the 3rd pin and the other end of the 3rd resistance that are also connected pwm chip by the 4th resistance, to be connected the positive pole of the first diode by the 5th resistance, to be connected the positive pole of the second diode by the 6th resistance; The minus earth of described external LED lamp group, the negative pole of described second diode connects the vdd terminal of synchronous rectification chip and one end of the second electric capacity, the other end ground connection of described second electric capacity, and the VSS of described synchronous rectification chip holds ground connection.

In the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification, described synchronous rectification chip also comprises the 7th resistance, and the output of described driver element connects the VSS end of synchronous rectification chip by the 7th resistance.

In the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification, the 3rd electric capacity that described rectification filtering module comprises rectifier bridge and is connected in parallel with rectifier bridge.

In the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification, the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification also comprises the 4th electric capacity, and described 4th electric capacity is in parallel with LED group.

In the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification, described first electric capacity, the second electric capacity, the 3rd electric capacity and the 4th electric capacity are electrochemical capacitor.

In the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification, the model of described pwm chip is WS3468.

Compared to prior art, the non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that the utility model provides, by adopting synchronous rectification module, improve conversion efficiency, EMI is low, output current adapts to the change of inductance value and the change of output voltage automatically, thus really achieves constant-current driving LED.By arranging rectifier switch pipe in synchronous rectification module, instead of traditional Schottky diode and carrying out rectification, solve the problem that the power loss that causes because of diode forward pressure drop is larger, thus reach reduction rectifier loss, the object of raising the efficiency.The non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that the utility model provides has high integration, extremely low stand-by power consumption, and external circuit structure simply, easily realizes, and significantly reduces cost.

Accompanying drawing explanation

The circuit diagram of the non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that Fig. 1 provides for the utility model.

The structured flowchart of the synchronous rectification chip of the non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that Fig. 2 provides for the utility model.

Embodiment

The utility model provides a kind of non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification, by synchronous rectification module, rectification is carried out to the electric current that PWM control module exports, and utilize rectifier switch pipe belt for traditional Schottky diode, solve the problem that the power loss that causes because of diode forward pressure drop is larger, thus reach reduction rectifier loss, the object of raising the efficiency.。

For making the purpose of this utility model, technical scheme and effect clearly, clearly, referring to the accompanying drawing embodiment that develops simultaneously, the utility model is further described.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Refer to Fig. 1, the non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that the utility model provides, comprise alternating current input J1, rectification filtering module 10, PWM control module 20, synchronous rectification module 30 and external LED lamp group 40.

Described PWM control module 20 is for providing constant drive current for external LED lamp group 40.Described synchronous rectification module 30 comprises a rectifier switch pipe, described synchronous rectification module 30 carries out rectification for the electric current exported PWM control module 20, detect the voltage between the drain electrode of self rectifier switch pipe and source electrode, open rectifier switch pipe when this voltage reaches turn-on threshold voltage, turn off rectifier switch pipe when this voltage reaches shutoff voltage.Concrete, described rectifier switch pipe adopts the power MOSFET that conducting resistance is extremely low, carries out rectification for the electric current exported PWM control module 20.

Described alternating current input J1 connects PWM control module 20 by rectification filtering module 10, and described PWM control module 20 also connects the positive pole of synchronous rectification module 30 and external LED lamp group 40, and the negative pole of described external LED lamp group 40 connects synchronous rectification module 30.

The non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that the utility model provides is operated in the lowest point switching mode, and adopt synchronous rectification, i.e. synchronous rectification module adopts the extremely low power MOSFET of conducting resistance to replace rectifier diode to carry out output rectification, solve the problem that the power loss that causes because of diode forward pressure drop is larger, making to export rectifier loss drops to minimum, substantially increases the efficiency of low-voltage, high-current rectification.

See also Fig. 2, described synchronous rectification module 30 comprises synchronous rectification chip U2, and wherein, described synchronous rectification chip U2 comprises: rectifier switch pipe Q1, sampling unit 31, logic control element 32 and driver element 33.

Described rectifier switch pipe Q1 is N-channel MOS pipe.

Described sampling unit 31, for detecting the voltage between the drain electrode of rectifier switch pipe Q1 and source electrode, and exports to described logic control element 32.

Described logic control element 32, exports control signal and rectifier switch pipe Q1 is opened, exports control signal rectifier switch pipe Q1 is turned off when described voltage reaches shutoff voltage when reaching turn-on threshold voltage for the voltage between the drain electrode and source electrode of rectifier switch pipe Q1.Described threshold voltage and shutoff voltage can carry out arranging and regulating according to the demand of LED drive circuit.

Described driver element 33, for the control signal produced according to logic control element 32, drives the break-make of rectifier switch pipe Q1.

The input of described sampling unit 31 is the SENSE end of synchronous rectification chip U2; The output of described sampling unit 31 connects the input of logic control element 32, and the output of described logic control element 32 is the vdd terminal of synchronous rectification chip U2; The output of described driver element 33 connects the grid of rectifier switch pipe Q1; The source electrode of described rectifier switch pipe Q1 is the VSS end of synchronous rectification chip U2; The drain electrode of described rectifier switch pipe Q1 is the VD end of synchronous rectification chip U2.

Described synchronous rectification chip U2 operationally, sampling unit 31 detects the SENSE terminal voltage of synchronous rectification chip U2, thus draw the voltage Vds between the drain electrode of rectifier switch pipe Q1 and source electrode, and export to logic control element 32, when Vds reaches turn-on threshold voltage, logic control element 32 sends control signal to driver element 33, and driver element 33 drives rectifier switch pipe Q1 conducting.After rectifier switch pipe Q1 conducting, Vds raises, when Vds rises to-70mV left and right, logic control element 32 adjusts the gate voltage of rectifier switch pipe Q1 to guarantee that Vds maintains-70mV by driver element 33, until inductive current Id drop to close to zero time just allow Vds rise, turn off rectifier switch pipe Q1 when Vds rises to shutoff voltage.

Described PWM control module 20 comprises pwm chip U1, inductance L, the first diode D1, the second diode D2, the first resistance R1, the second resistance R2, the 3rd resistance R3, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the first electric capacity C1 and the second electric capacity C2; Described alternating current input J1 connects one end of the first resistance R1, the 5th pin 5 of pwm chip U1 and the 6th pin 6 by rectification filtering module 10; The other end of described first resistance R1 connects second pin 2 of the negative pole of the first diode D1, one end of the first electric capacity C1 and pwm chip U1; 4th pin 4 of described pwm chip U1 connects one end of inductance L, the VD end of synchronous rectification chip U2, the SENSE end of synchronous rectification chip U2, one end of the 3rd resistance R3, the other end of the first electric capacity C1, the 7th pin 7 of pwm chip U1 and the 8th pin 8 by the second resistance R2; The positive pole that the other end of described inductance L connects external LED lamp group 20, the 3rd pin 3 and the other end of the 3rd resistance R3 that are also connected pwm chip U1 by the 4th resistance R4, to be connected the positive pole of the first diode D1 by the 5th resistance R5, to be connected the positive pole of the second diode D2 by the 6th resistance R6; The minus earth of described external LED lamp group 20, the negative pole of described second diode D2 connects the vdd terminal of synchronous rectification chip U2 and one end of the second electric capacity C2, the other end ground connection of described second electric capacity C2, and the VSS of described synchronous rectification chip U2 holds ground connection.

Wherein, the model of pwm chip U1 is WS3468, has 8 pins, and pwm chip U1 first pin 1(NC holds) be unsettled pin; Second pin 2(VCC holds) be the power pins of pwm chip U1; 3rd pin 3(FB holds) be feedback signal input pin; 4th pin 4(S holds) be the source lead of pwm chip U1 internal power switching tube (not shown); 5th pin 5 and the 6th pin 6(two D end) be the drain lead of pwm chip U1 internal power switching tube; 7th pin 7 and the 8th pin 8(two GND end) be the earth terminal of pwm chip U1.

Please continue to refer to Fig. 1 and Fig. 2, the non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that the utility model provides, synchronous rectification chip U2, by detecting the voltage Vds of the drain-to-source of rectifier switch pipe Q1, selects to allow synchronous rectifier Q1 turn-on and turn-off suitable opportunity.When pwm chip U1 internal switch power tube is opened, external inductance L energy storage also externally provides output current, and synchronous rectification chip U2 detects that the Vds of synchronous rectifier Q1 is positive voltage, and now synchronous rectifier Q1 turns off and do not carry out rectification, when pwm chip U1 internal switch power tube turns off, inductance L carries out afterflow by the body diode D3 of synchronous rectification chip U2 inner rectifier switch pipe Q1, Vds reaches the conducting voltage of body diode D3, body diode D3 conducting, electric current flows through body diode D3 and produces a less negative voltage, synchronous rectification chip U2 detect Vds reach rectifier switch pipe Q1 open threshold value time, open rectifier switch pipe Q1 and carry out rectification, when inductive current reduces, Vds also reduces gradually, arrive rectifier switch pipe Q1 when turning off threshold voltage to turn off, pwm chip U1 reopens to inductance L energy storage, for the next commutation cycle prepares.

Concrete, alternating voltage is after the shaping and filtering of rectification filtering module 10, charge to the first electric capacity C1 by the first resistance R1, after the voltage on C1 reaches the starting resistor of pwm chip U1, the internal power switching tube (not shown) of pwm chip U1 is opened, inductive current rises, and charged to the second electric capacity C2 by the 6th resistance R6 and the second diode D2 simultaneously, operating voltage is provided to synchronous rectification chip U2, while inductive current rises, voltage on second resistance R2 also rises, pwm chip U1 closes the power switch pipe of its inside when detecting that the voltage on the second resistance R2 reaches the threshold value of inner setting, power switch pipe is closed rear inductive current and is carried out afterflow by synchronous rectification chip U2, now two GND end (the 7th pin and the 8th pin) of pwm chip U1 are basically identical with the earth, therefore can be charged to the first electric capacity C1 by the 5th resistance R5 and the first diode D1, simultaneously whether pwm chip U1 can detect inductive current by the voltage detected on FB end and discharged, represent that inductive current reduces to 0 when pwm chip U1 detects the threshold value of the voltage on FB end lower than inner setting, then the power switch pipe of pwm chip U1 inside reopens conducting.

When the switching tube conducting of pwm chip U1 internal power, synchronous rectification chip U2 detects that Vds is positive voltage, control inner rectifier switch pipe Q1 to turn off and do not carry out rectification, now electric current flows through the power switch pipe of pwm chip U1 inside, the second resistance R2, inductance L and LED group 40.When the internal power switching tube of pwm chip U1 turns off, because inductive current can not suddenly change, therefore the electric current in inductance L passes through inductance L, LED group 40, the body diode D3 of synchronous rectification chip U2 inner rectifier switch pipe Q1 carries out afterflow, when rectifier switch pipe Q1 does not open (conducting), electric current is by the body diode D3 of synchronous rectification chip U2 rectifier switch pipe Q1, now Vds voltage is approximately-500mV, due to this voltage much smaller than inside open threshold value time, therefore afterflow is carried out in rectifier switch pipe Q1 conducting, the electric current I d flow through after rectifier switch pipe Q1 conducting declines gradually, the value of Vds(Vds is-Id × Ron, Ron is the conducting resistance of rectifier switch pipe Q1) voltage raises gradually, in order to guarantee trailing edge Vds being detected, Vds voltage is maintained about-70mV by the gate voltage of adjustment rectifier switch pipe Q1 by synchronous rectification chip U2, until electric current continues to drop to zero, during the shutoff threshold voltage of Vds voltage higher than-30mV, rectifier switch pipe Q1 just turns off, rectification terminates.

Further, described synchronous rectification chip U2 also comprises the 7th resistance R7, and the output of described driver element 33 connects the VSS end of synchronous rectification chip U2 and the source electrode of rectifier switch pipe Q1 by the 7th resistance R7.

The 3rd electric capacity C3 that described rectification filtering module 10 comprises rectifier bridge and is connected in parallel with rectifier bridge.

The non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that the utility model provides also comprises the 4th electric capacity C4, and described 4th electric capacity C4 is in parallel with LED group 40.Described first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3 and the 4th electric capacity C4 are electrochemical capacitor.The positive pole of described first electric capacity C1 connects second pin (VCC end) of pwm chip U1 and the negative pole of the first diode D1; The negative pole of described first electric capacity C1 connects the 7th pin and the 8th pin of pwm chip U1.The positive pole of described second electric capacity C2 connects the vdd terminal of synchronous rectification chip U2 and the negative pole of the second diode D2, the minus earth of described second electric capacity C2.The positive pole of described 3rd electric capacity C3 connects the output of rectifier bridge, the 5th pin of pwm chip U1 and the 6th pin, the minus earth of described 3rd electric capacity C3.The positive pole of described 4th electric capacity C4 connects the positive pole of LED group 40 and the other end of inductance L, the minus earth of described 4th electric capacity C4.

In sum, the non-isolated voltage-dropping type LED drive circuit of the intelligent synchronization rectification that the utility model provides is operated in the lowest point switching mode, and adopt synchronous rectification, therefore conversion efficiency is high, EMI is low, output current adapts to the change of inductance value and the change of output voltage automatically, thus really achieves constant-current driving LED lamp group.The synchronous rectification of this LED drive circuit adopts the power MOS pipe of low on-resistance to replace traditional Schottky diode to carry out rectification, solve the problem that the power loss that causes because of diode forward pressure drop is larger, thus reach reduction rectifier loss, the object of raising the efficiency.This LED drive circuit has high integration, extremely low stand-by power consumption, and external circuit structure simply, easily realizes, and significantly reduces cost.

Be understandable that; for those of ordinary skills; can be equal to according to the technical solution of the utility model and utility model design thereof and replace or change, and all these change or replace the protection range that all should belong to the claim appended by the utility model.

Claims (8)

1. a non-isolated voltage-dropping type LED drive circuit for intelligent synchronization rectification, is characterized in that, comprising:

Alternating current input;

Rectification filtering module;

For providing the PWM control module of constant drive current for external LED lamp group;

Electric current for exporting PWM control module carries out rectification, detect the voltage between the drain electrode of self rectifier switch pipe and source electrode, open rectifier switch pipe when this voltage reaches turn-on threshold voltage, turn off the synchronous rectification module of rectifier switch pipe when this voltage reaches shutoff voltage;

Described alternating current input connects PWM control module by rectification filtering module, and described PWM control module also connects synchronous rectification module.

2. the non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification according to claim 1, is characterized in that, described synchronous rectification module comprises synchronous rectification chip, and wherein, described synchronous rectification chip comprises:

Rectifier switch pipe;

For detecting the voltage between the drain electrode of rectifier switch pipe and source electrode, and export to the sampling unit of following logic control element;

Export control signal when reaching turn-on threshold voltage for the voltage between the drain electrode and source electrode of rectifier switch pipe rectifier switch pipe to be opened, exports the logic control element that control signal makes rectifier switch pipe turn off when described voltage reaches shutoff voltage;

For the control signal produced according to logic control element, drive the driver element of rectifier switch pipe break-make;

The input of described sampling unit is the SENSE end of synchronous rectification chip; The output of described sampling unit connects the input of logic control element, and the output of described logic control element is the vdd terminal of synchronous rectification chip; The output of described driver element connects the grid of rectifier switch pipe; The source electrode of described rectifier switch pipe is the VSS end of synchronous rectification chip; The drain electrode of described rectifier switch pipe is the VD end of synchronous rectification chip.

3. the non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification according to claim 2, it is characterized in that, described PWM control module comprises pwm chip, inductance, the first diode, the second diode, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, the 6th resistance, the first electric capacity and the second electric capacity; Described alternating current input connects one end of the first resistance, the 5th pin of pwm chip and the 6th pin by rectification filtering module; The other end of described first resistance connects the second pin of the negative pole of the first diode, one end of the first electric capacity and pwm chip; 4th pin of described pwm chip connects one end of inductance, the VD end of synchronous rectification chip, the SENSE end of synchronous rectification chip, one end of the 3rd resistance, the other end of the first electric capacity, the 7th pin of pwm chip and the 8th pin by the second resistance; The positive pole that the other end of described inductance connects external LED lamp group, the 3rd pin and the other end of the 3rd resistance that are also connected pwm chip by the 4th resistance, to be connected the positive pole of the first diode by the 5th resistance, to be connected the positive pole of the second diode by the 6th resistance; The minus earth of described external LED lamp group, the negative pole of described second diode connects the vdd terminal of synchronous rectification chip and one end of the second electric capacity, the other end ground connection of described second electric capacity, and the VSS of described synchronous rectification chip holds ground connection.

4. the non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification according to claim 3, is characterized in that, described synchronous rectification chip also comprises the 7th resistance, and the output of described driver element connects the VSS end of synchronous rectification chip by the 7th resistance.

5. the non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification according to claim 4, is characterized in that, the 3rd electric capacity that described rectification filtering module comprises rectifier bridge and is connected in parallel with rectifier bridge.

6. the non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification according to claim 5, is characterized in that, the non-isolated voltage-dropping type LED drive circuit of described intelligent synchronization rectification also comprises the 4th electric capacity, and described 4th electric capacity is in parallel with LED group.

7. the non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification according to claim 6, is characterized in that, described first electric capacity, the second electric capacity, the 3rd electric capacity and the 4th electric capacity are electrochemical capacitor.

8. the non-isolated voltage-dropping type LED drive circuit of intelligent synchronization rectification according to claim 7, is characterized in that, the model of described pwm chip is WS3468.