CN105722274B - Active power factor correction control circuit, chip and LED drive circuit - Google Patents

Abstract

The present invention provides a kind of APFC control circuits, including output electric current counting circuit, error calculation circuit, inductive current zero cross detection circuit and duty ratio counting circuit.Foregoing circuit uses direct current supply voltage to provide constant voltage for the grid of DC-DC converter power switch tube, only the periodic on and off of power switch tube is controlled by adjusting the source voltage of power switch tube, to drive DC-DC converter to work, debugging when making using the APFC control circuit is simpler.In addition, above-mentioned APFC control circuit can be directly integrated on the same chip, the number of pins of chip is only 4, to reduce the number and complexity of peripheral circuit, it further solves when improving the PF value of LED drive circuit using APFC control circuit, LED drive circuit debugs cumbersome problem.

Description

Active power factor correction control circuit, chip and LED drive circuit

The application is application No. is 201310701205.8, and the applying date is on December 18th, 2013, entitled " active The divisional application of power factor correction control circuit, chip and LED drive circuit ".

Technical field

The present invention relates to power electronics fields, control electricity more specifically to a kind of active power factor correction Road, chip and LED drive circuit.

Background technique

LED (Light-Emitting Diode, light emitting diode) is relative to photophores such as traditional incandescent lamp, fluorescent lamps Part has many advantages, such as service life length, green non-pollution, has boundless application prospect.

LED needs to meet relevant harmonic standard as illuminating product, therefore requires the PF of LED drive circuit (Power Factor, power factor) value is higher.In order to improve PF value, Yao Caiyong PFC (Power Factor Correction, PFC).PFC point for PPFC (Passive Power Factor Correction, passive power factor correction) and APFC (Active Power Factor Correction, active power factor correction).

DC-DC converter and APFC control circuit are specifically included that using the LED drive circuit of APFC, wherein straight Stream-DC converter is connected with load LED.It drives in the course of work, AC-input voltage is converted to after over commutation and filtering DC input voitage, DC-DC converter carry out voltage transformation to the DC input voitage, finally obtain needed for load LED Driving voltage, realize driving to LED.In the process, APFC control circuit to DC-DC converter by exporting PWM (Pulse Width Modulation, pulse width modulation) signal, controls the power switch tube of DC-DC converter On and off, to improve the PF value of LED drive circuit.

But in LED drive circuit, if realizing high PF value using APFC, APFC control circuit can be relatively easy. Currently, most of APFC control circuits are integrated in the chips, to realize to the DC-DC converter of LED drive circuit compared with Good to adjust, then the peripheral circuit of the chip is more and more complex, causes the debugging of circuit cumbersome.

Summary of the invention

The present invention provides a kind of APFC control chip and LED drive circuits, to solve to mention when using APFC control circuit The problem that when the PF value of high LED drive circuit, LED drive circuit is complicated for operation, debugging is cumbersome.

To achieve the above object, the present invention provides the following technical scheme that

The invention proposes a kind of active power factor correction controller ICs, comprising:

First pin, second pin, third pin and the 4th pin；

Inductive current zero cross detection circuit, the grid that first input end passes through the second pin and the power switch tube Pole, and be connected by the third pin with direct current supply voltage, to detect the electric current for flowing through inductance, and in the inductance Electric current when being decreased to zero, generate comparison signal；

Electric current counting circuit, including first switch tube are exported, the first end of the first switch tube is drawn by described first Foot is connected with the first end of the power switch tube；

Error calculation circuit, input terminal are connected by the 4th pin with filter circuit, the filter circuit pair Output is to the error calculation circuit to generate after the current feedback signal that the output electric current counting circuit generates is filtered Thermal compensation signal；Duty ratio counting circuit receives the thermal compensation signal and the comparison signal to generate pulse width modulating signal And trigger signal, the pulse width modulating signal are exported to the output electric current counting circuit, to drive the power switch Manage periodic turn-on and turn-off；The trigger signal is exported to the output electric current counting circuit, to control the output electricity Stream calculation circuit generates current feedback signal.

The invention also provides a kind of LED drive circuits, comprising: DC-DC converter and above-mentioned active power factor Correcting controlling chip and filter circuit；

The DC-DC converter is used under the driving of the active power factor correction controller IC to described The input voltage of LED drive circuit is converted, to generate output electric current；

The filter circuit is converted to the current feedback signal for being filtered to the current feedback signal Characterize the voltage feedback signal of the current feedback signal.

Compared with prior art, technical solution provided by the present invention has at least the following advantages:

In APFC control chip and LED drive circuit provided by the present invention, it includes output galvanometer that APFC, which controls chip, Circuit, error calculation circuit, inductive current zero cross detection circuit and duty ratio counting circuit are calculated, it is straight for using direct current supply voltage The grid of stream-DC converter power switch tube provides constant voltage, only passes through control circuit driving power switching tube Source electrode can be achieved with the adjustment to power switch tube source voltage, and then control the variation of power switch tube gate source voltage, make function The on and off of rate switching tube generating period, to drive DC-DC converter to work.It is above-mentioned only change source voltage into The mode of row driving, compared with the existing technology in adjust the mode that the voltage of grid and source electrode is driven simultaneously, make using should Debugging when APFC control chip is simpler.

In addition, the number of pins of above-mentioned APFC control chip is only 4, to reduce the number and complexity of peripheral circuit Degree further solves the LED drive circuit debugging when improving the PF value of LED drive circuit using APFC control circuit Cumbersome problem.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is the structure chart of APFC control circuit provided by the embodiment of the present invention one；

Fig. 2 is the structure chart of APFC control circuit provided by the embodiment of the present invention two；

Fig. 3 is the structure chart of APFC control circuit provided by the embodiment of the present invention three；

Fig. 4 is the structure chart of APFC control circuit provided by the embodiment of the present invention four；

Fig. 5 is the structure chart that APFC provided by the embodiment of the present invention five controls chip；

Fig. 6 is the structure chart of LED drive circuit provided by the embodiment of the present invention six.

Specific embodiment

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing to the present invention Specific embodiment be described in detail.

In the following description, numerous specific details are set forth in order to facilitate a full understanding of the present invention, but the present invention can be with Implemented using other than the one described here other way, those skilled in the art can be without prejudice to intension of the present invention In the case of do similar popularization, therefore the present invention is not limited by the specific embodiments disclosed below.

Embodiment one

A kind of APFC control circuit is present embodiments provided, which is used to that DC-DC converter to be driven to work, To improve the power factor value of DC-DC converter.The structure of the control circuit in figure for APFC as shown in Figure 1,10 control Circuit, 11 be DC-DC converter, and APFC control circuit 10 includes: output electric current counting circuit 101, error calculation circuit 102, inductive current zero cross detection circuit 103 and duty ratio counting circuit 104.

The first input end of output electric current counting circuit 101 is connected with the first output end of duty ratio counting circuit 104, the Two input terminals are connected with the second output terminal of duty ratio counting circuit 104, the function of third input terminal and DC-DC converter 11 Rate switching tube Q_bSource electrode be connected, output end is connected with the input terminal of error calculation circuit 102；Error calculation circuit 102 it is defeated Outlet is connected with the first input end of duty ratio counting circuit 104；The first input end of inductive current zero cross detection circuit 103 point Not with direct current supply voltage V_CCWith power switch tube Q_bGrid be connected, the second input terminal and power switch tube Q_bSource electrode phase Even, output end is connected with the second input terminal of duty ratio counting circuit 104.

In above-mentioned APFC control circuit 10, output electric current counting circuit 101 flows through inductance L by sampling_bElectric current, obtain Flow through inductance L_bElectric current situation of change, flowing through inductance L_bElectric current when reaching peak value, generate a current feedback signal I_FB； Error calculation circuit 102 obtains characterization current feedback signal I_FBVoltage feedback signal, response duty ratio counting circuit 104 it is defeated Trigger signal out to generate thermal compensation signal, and the thermal compensation signal is exported to duty ratio counting circuit 104；Inductive current mistake Inductance L is flowed through in the detection of zero detection circuit 103_bElectric current, flowing through inductance L_bElectric current when being decreased to zero, generate comparison signal, and The comparison signal is exported to duty ratio counting circuit 104；Duty ratio counting circuit 104 receives thermal compensation signal and comparison signal, To generate pulse width modulating signal PWM and trigger signal T_DIS, and pulse width modulating signal PWM is exported and gives output electric current Counting circuit 101, with driving power switching tube Q_bPeriodic turn-on and turn-off, by trigger signal T_DISIt exports and gives output electric current Counting circuit 101 generates current feedback signal I with control output electric current counting circuit 101_FB。

In the present embodiment, the power switch tube Q of DC-DC converter 11_bGrid and direct current supply voltage V_CCIt is connected, That is direct current supply voltage V_CCFor power switch tube Q_bProvide a bias voltage, power switch tube Q_bGrid voltage it is constant not Become.Power switch tube Q_bSource electrode with output electric current counting circuit 101 third input terminal be connected, when export electric current counting circuit When the voltage of 101 third input terminal changes, power switch tube Q_bSource voltage also change therewith, thus power switch Pipe Q_bGate source voltage variation, make power switch tube Q_bOn or off.As it can be seen that APFC control circuit provided by the present embodiment 10 be to carry out driving power switching tube Q by using the mode of source drive_bWork, and in the prior art generally by function The grid and source voltage of rate switching tube could be adjusted to the work of driving power switching tube simultaneously, therefore in the present embodiment Than in the prior art simple of APFC control circuit 10, so that debugging when in use is also just simplified.

In addition, specifically including that power switch tube Q in DC-DC converter 11_bWith inductance L_b, can also include: capacitor C_bWith diode D_b, capacitor C_bWith load LED it is in parallel after with inductance L_bA branch in series, diode D_bIt is connected in parallel on capacitor C_b、 Load LED and inductance L_bThe branch both ends constituted, input voltage v_gTo capacitor C_b, load LED and inductance L_bThe branch constituted DC voltage is provided, power switch tube Q is passed through_bOn and off control foregoing circuit to input voltage v_gConverted (drop Pressure or boosting etc.).

Embodiment two

Based on embodiment one, a kind of APFC control circuit 10 is present embodiments provided, as shown in Fig. 2, exporting in the circuit Electric current counting circuit 101 includes: first switch tube M₁, inductive current peak detection circuit 1011 and current feedback signal generate electricity Road 1012.

First switch tube M₁Grid as it is described output electric current counting circuit 101 first input end and duty ratio calculate First output end of circuit 104 is connected, and drains and becomes as the third input terminal and DC-DC of output electric current counting circuit 101 The power switch tube Q of parallel operation 11_bSource electrode be connected, source electrode ground connection；The input terminal of inductive current peak detection circuit 1011 and One switching tube M₁Drain electrode be connected, output end is connected with the input terminal of current feedback signal generation circuit 1012；Current feedback letter Input of the output end of number generation circuit 1012 as the output end and error calculation circuit 102 of output electric current counting circuit 101 End is connected.

First switch tube M₁The inductance L of DC-DC converter 11 is flowed through in sampling_bElectric current, therefore flow through first switch tube M₁Electric current be equal to flow through power switch tube Q_bElectric current；Inductive current peak detection circuit 1011 by with power switch tube Q_b Source electrode (i.e. first switch tube M₁Drain electrode) be connected, obtain characterization first switch tube M₁Sample the voltage letter of obtained current value Number, detect the inductance L of DC-DC converter 11_bElectric current whether reach peak value, in inductance L_bElectric current when reaching peak value, will Characterize inductance L_bThe voltage signal of current peak export to current feedback signal generation circuit 1012；Current feedback signal generates Circuit 1012 receives characterization inductance L_bCurrent peak voltage signal, in trigger signal T_DISUnder the action of generate electric current it is anti- Feedback signal I_FB。

In the present embodiment, first switch is controlled by the pulse width modulating signal PWM that duty ratio counting circuit 104 generates Pipe M₁On and off, and then control output give power switch tube Q_bSource electrode voltage signal, and then make power switch tube Q_b Periodic on or off.

It should be noted that the above-mentioned way of realization of output electric current counting circuit provided by the present embodiment is only the present invention In the circuit implementation one kind, in other embodiments of the invention, output electric current counting circuit 101 can also use it Its circuit and connection relationship are realized.

In addition, first switch tube M in the present embodiment₁Type can be N-type, or p-type does not limit herein.

It can also be preferably in power switch tube Q in the present embodiment_bGrid and direct current supply voltage V_CCBetween add one First resistor R₁, first resistor R₁One end and power switch tube Q_bGrid be connected, the other end and direct current supply voltage V_CCPhase Even, preferably for power switch tube Q_bGrid constant bias voltage is provided.

Embodiment three

Based on embodiment two, a kind of specific implementation circuit of APFC control circuit 10 is present embodiments provided, the circuit Structure is as shown in Figure 3:

Export the inductive current peak detection circuit 1011 of electric current counting circuit 101 can include: the first controllable switch S₁, Two controllable switch S₂, first capacitor C₁With the second capacitor C₂.First controllable switch S₁First end as inductive current peak detect The input terminal and first switch tube M of circuit 1011₁Drain electrode be connected, second end and first capacitor C₁First end be connected；First electricity Hold C₁Second end ground connection；Second controllable switch S₂First end and first capacitor C₁First end be connected, second end with second electricity Hold C₂First end be connected；Second capacitor C₂Output end and electric current of the first end as inductive current peak detection circuit 1011 The input terminal of feedback signal generation circuit 1012 is connected, second end ground connection.

In foregoing circuit, the first controllable switch S₁It is controlled by the pulse width modulation letter of the generation of duty ratio counting circuit 102 Number PWM, i.e. power switch tube Q_bThe time of conducting, the on or off under the control of pulse width modulating signal PWM；Second Controllable switch S₂It is controlled by power switch tube Q_bTurn-off time T_OFF, with the first controllable switch S₁Complementation conducting, i.e., first is controllable Switch S₁With the second controllable switch S₂The shutdown moment it is complementary with turn-on instant.Due to flowing through first switch tube M₁Electric current be equal to Flow through inductance L_bElectric current, therefore when flowing through first switch tube M₁Electric current when reaching peak value, pulse width modulating signal PWM mono- Directly remain high level, the first controllable switch S₁It is open-minded, then first capacitor C₁Voltage be characterization flow through power switch tube Q_bPeak It is worth the voltage signal of electric current, thus first capacitor C₁Sampling obtains characterization power switch tube Q_bPeak point current voltage signal.This When pulse width modulating signal PWM become low level, the first controllable switch S₁Shutdown characterizes power switch tube Q_bTurn-off time T_OFFSignal be high level, the second controllable switch S₂It is open-minded, then the second capacitor C₂Voltage be equal to characterization power switch tube Q_b's The voltage signal of peak point current, by power switch tube Q_bPeak point current voltage signal export give current feedback signal generate Circuit 1012.

Export the current feedback signal generation circuit 1012 of electric current counting circuit 101 can include: second switch M₂, third Switching tube M₃, the 4th switching tube M₄, the 5th switching tube M₅, first comparator A₁With second resistance R₂.Second switch M₂Grid With third switching tube M₃Grid be connected, second switch M₂Grid also with second switch M₂Drain electrode be connected, second switch Pipe M₂Source electrode and third switching tube M₃Source electrode with direct current supply voltage V_CCIt is connected, second switch M₂Drain electrode and the 4th Switching tube M₄Drain electrode be connected, third switching tube M₃Drain electrode and the 5th switching tube M₅Drain electrode be connected；4th switching tube M₄Grid Pole is connected as the second input terminal of output electric current counting circuit 101 with the second output terminal of duty ratio counting circuit 104, source electrode Output end as output electric current counting circuit 101 is connected with the input terminal of error calculation circuit 102；5th switching tube M₅Grid Pole and first comparator A₁Output end be connected, source electrode respectively with first comparator A₁Inverting input terminal and second resistance R₂'s First end is connected；First comparator A₁Non-inverting input terminal as the input terminal of current feedback signal generation circuit 1012 and second Capacitor C₂First end be connected；Second resistance R₂Second end ground connection.

In foregoing circuit, first comparator A₁Receive characterization power switch tube Q_bPeak point current voltage signal, with second Resistance R₂Voltage signal be compared, export the second comparison signal to control the 5th switching tube M₅Conducting, and then control third and open Close pipe M₃It opens, due to second switch M₂With third switching tube M₃It is mirrored into relationship, therefore second switch M₂It opens, simultaneously 4th switching tube M₄In the trigger signal T that duty ratio counting circuit 104 generates_DISControl under, generate current feedback signal I_FB。

Error calculation circuit 102 can include: trsanscondutance amplifier G_m, third controllable switch S₃With third capacitor C₃.Mutual conductance amplification Device G_mNon-inverting input terminal receive voltage reference signal v_REF, inverting input terminal is as the input terminal of error calculation circuit 102 and Four switching tube M₄Source electrode be connected, output end and third controllable switch S₃First end be connected；Third controllable switch S₃Second end With third capacitor C₃First end be connected；Third capacitor C₃Second end ground connection.

In foregoing circuit, third controllable switch S₃, it is controlled by the pulse signal D that a duty ratio is less than or equal to 0.05_c.Electricity Flow feedback signal I_FBCorresponding voltage feedback signal V_FB(characterize the current feedback signal I_FBVoltage feedback signal) and base Quasi- voltage signal v_REFTrsanscondutance amplifier G is inputed to respectively_m, trsanscondutance amplifier G_mTo voltage feedback signal V_FBBelieve with reference voltage Number v_REFOperation is carried out, voltage feedback signal V is obtained_FBRelative to reference voltage signal v_REFError.Third controllable switch S₃By It controls in pulse signal D_cAnd turn-on and turn-off, as third controllable switch S₃When conducting, third capacitor C₃It charges, then third capacitor C₃ First end voltage be v_c, as third controllable switch S₃When shutdown, third capacitor C₃Voltage v_cIt is held essentially constant, thus It generates a thermal compensation signal to export to duty ratio counting circuit 104, which characterizes voltage feedback signal V_FBRelative to benchmark Voltage signal v_REFError amount.

It should be noted that if pulse signal D_cDuty ratio be equal to 0.5, third capacitor C₃Capacitance be equal to 1, then duty When than being equal to 0.05, third capacitor C₃Capacitance be equal to 0.1；If being not provided with third controllable switch S₃, then it is believed that duty ratio etc. In 1, then capacitance is equal to 2, by the way that third controllable switch S is arranged₃, and make the pulse signal D for controlling it_cDuty ratio Dc≤0.05, Capacitance can be made to be less than or equal to 0.1.One third controllable switch S is set in foregoing circuit₃, reduce third capacitor C₃Capacitance, by It is directly proportional to the volume of its own in the capacitance of capacitor, therefore third capacitor C₃It can be integrated in chip, to reduce chip Number of pins and peripheral circuit.

Inductive current zero cross detection circuit 103 includes: bias voltage source V_OSWith third comparator A₃.Bias voltage source V_OS's First input end and direct current supply voltage V of the anode as inductive current zero cross detection circuit 103_CCIt is connected, cathode and third ratio Compared with device A₃Non-inverting input terminal be connected；Third comparator A₃Inverting input terminal as inductive current zero cross detection circuit 103 Two input terminals are connected with the third input terminal of output electric current counting circuit 101, and output end is as inductive current zero cross detection circuit 103 output end is connected with the second input terminal of duty ratio counting circuit 104.

In foregoing circuit, inductance L is flowed through in the detection of inductive current zero cross detection circuit 103_bElectric current, in inductance L_bElectric current When zero passage, third comparator A₃High level is exported, is exported the high level as comparison signal to duty ratio counting circuit 104.

Duty ratio counting circuit 104 includes: the first trigger RS₁, the second trigger RS₂, impulse generator the 1041, the 4th Comparator A₄, current source I_s, the 4th capacitor C₄, the 4th controllable switch S₄With NOT gate 1042；First trigger RS₁Set end S make For the second input terminal and third comparator A of duty ratio counting circuit 104₃Output end be connected, reset terminal R and the 4th comparator A₄Output end be connected, the input terminal of output end Q NAND gate 1042 is connected, and first as duty ratio counting circuit 104 is defeated Outlet and first switch tube M₁Grid be connected；4th comparator A₄Non-inverting input terminal and the 4th capacitor C₄First end be connected, First input end and third capacitor C of the inverting input terminal as duty ratio counting circuit 104₃First end be connected；Current source I_s's Cathode and the 4th capacitor C₄First end be connected；4th capacitor C₄Second end ground connection；4th controllable switch S₄First end and the Four capacitor C₄First end be connected, second end and the 4th capacitor C₄Second end be connected, the 4th controllable switch S₄It is controlled by NOT gate 1042 output signal；The first end of impulse generator 1041 and the first trigger RS₁Set end S be connected, second end and the Two trigger RS₂Reset terminal R be connected；Second trigger RS₂Set end S NAND gate 1042 input terminal be connected, output end Q Second output terminal and the 4th switching tube M as duty ratio counting circuit 104₄Grid be connected.

In foregoing circuit, when flowing through inductance L_bCurrent over-zero when, third comparator A₃Output high level signal (compares Signal), after the processing of impulse generator 1041, the first trigger RS₁Set end S receive the high level signal, then first Trigger RS₁The end output end Q output pulse width modulating signal PWM be high level, first switch tube M₁It is open-minded, then power Switching tube Q_bIt is open-minded；Become low level after NOT gate 1042 for the pulse width modulating signal PWM of high level simultaneously, so that electric Stream source I_sTo the 4th capacitor C₄Charging；As the 4th capacitor C₄The voltage at both ends reaches third capacitor C₃When the voltage at both ends, the 4th ratio Compared with device A₄High level is exported to the first trigger RS₁Reset terminal R, then the first trigger RS₁Output end Q output pulse it is wide Degree modulated signal PWM is low level, first switch tube M₁It turns off, then power switch tube Q_bShutdown, until first switch tube M₁It opens again It is logical, a switch periods (i.e. power switch tube Q_bDrive cycle) work terminate, start the work of next switch periods. As it can be seen that 10 driving power switching tube Q of APFC control circuit provided by the present embodiment_bConstant period, power switch tube Q_bIt is open-minded Time is constant, thus the simple debugging and operation of APFC control circuit 10.

While above-mentioned duty ratio counting circuit generates pulse width modulating signal PWM, when flowing through inductance L_bElectric current When zero passage, third comparator A₃The high level of output, after impulse generator is handled, by the second trigger RS₂Reset terminal R It receives, and the received pulse-width signal PWM of set end S is also high level, then the second trigger RS₂Output end Q output Trigger signal T_DISFor high level, the 4th switching tube M at this time₄Conducting, while flowing through inductance L_bElectric current continue to be reduced to by zero it is negative It is worth, then the 4th switching tube M₄After conducting, the inductance L that mirror image comes is forced_bFailure of current so that output current feedback letter It number is zero.

APFC control circuit driving power switching tube Q provided by the present embodiment_bConstant period, to make power switch Pipe Q_bService time it is constant, make the circuit be applied to improve DC-DC converter power factor value when, debugging be able to letter Change.

Further, by adding a controllable switch in error calculation circuit in the present embodiment, and make the controllable switch It is controlled by the pulse signal that a duty ratio is not more than 0.05, reduces the capacitance of capacitor can accordingly, so that capacitor can be with APFC control circuit is integrated on the same chip, reduces the number of pins and peripheral circuit number of chip, further simplifies control Debugging when circuit processed is applied.

Example IV

The present embodiment is the further precision for improving APFC control circuit, in inductive current peak detection circuit and first Switching tube M₁Between add a current mirror circuit.Connection relationship such as Fig. 4 institute between the current mirror circuit and other circuits Show, the first input end and first switch tube M of current mirror circuit 1013₁Drain electrode be connected, the second input terminal and first switch Pipe M₁Grid be connected, output end is connected with the first input end of inductive current peak detection circuit 1011, composition inductive current The first input end of peak detection circuit 1011 passes through the current mirror circuit 1013 and first switch tube M₁The indirect phase of drain electrode Structure even.

The current mirror circuit 1013 is used for flowing through first switch tube M₁Current mirror amplification, obtain image current, Therefore the image current can equally characterize first switch tube M₁Obtained current value is sampled, can characterize and flow through inductance L_bElectric current； Current mirror circuit 1013 exports the image current by mirror image amplification to inductive current peak detection circuit 1011, due to The image current characterizes inductance L_bElectric current, therefore inductive current peak detection circuit 1011 can be obtained by detecting the image current To inductance L_bElectric current when reach peak value, and since the image current is inductance L_bElectric current through amplification obtain, therefore detect Precision can than no 1013 Shi Genggao of current mirror circuit, and then enable entire APFC control circuit preferably improve power because Numerical value.

Specifically, the current mirror circuit 1013 can include: the 6th switching tube M₆, the 7th switching tube M₇, the 8th switching tube M₈, the 9th switching tube M₉, the second comparator A₂With 3rd resistor R₃；6th switching tube M₆Grid and the 7th switching tube M₇Grid It is connected, the 6th switching tube M₆Grid also with the 6th switching tube M₆Drain electrode be connected, the 6th switching tube M₆Source electrode and the 7th switch Pipe M₇Source electrode with direct current supply voltage V_CCIt is connected, the 6th switching tube M₆Drain electrode and the 8th switching tube M₈Drain electrode be connected, the Seven switching tube M₇Drain electrode and 3rd resistor R₃First end be connected, the 7th switching tube M₇Drain electrode be also used as current mirror circuit 1013 output end and the first controllable switch S₁First end be connected, the 6th switching tube M₆With the 7th switching tube M₇It is mirrored into relationship； 8th switching tube M₈Grid and the second comparator A₂Output end be connected, source electrode respectively with the second comparator A₂Anti-phase input End and the 9th switching tube M₉Drain electrode be connected；9th switching tube M₉Second input terminal of the grid as current mirror circuit 1013 With first switch tube M₁Grid be connected, source electrode ground connection, the 9th switching tube M₉With first switch tube M₁It is mirrored into relationship；Second ratio Compared with device A₂Non-inverting input terminal as current mirror circuit 1013 first input end and first switch tube M₁Drain electrode be connected；The Three resistance R₃Second end ground connection.

In foregoing circuit, if first switch tube M is flowed through in setting₁With the 9th switching tube M₉Electric current ratio be K:1, that is, flow through The electric current of current mirror circuit 1013, which is equal to, flows through first switch tube M₁1/K times of electric current, and flow through first switch tube M₁Electricity Stream, which is equal to, flows through inductance L_bElectric current, therefore flow through current mirror circuit 1013 electric current be equal to flow through inductance L_bElectric current 1/K Times.If K, less than 1, current mirror circuit 1013 flows through inductance L for what sampling obtained_b1/K times of Current amplifier, by the warp Cross amplification, characterize inductance L_bThe signal of electric current export to inductive current peak detection circuit 1011, inductive current can be made Peak detection circuit 1011 is to inductance L_bPeak point current it is more sensitive, to improve the precision to peak current detection.

The present embodiment preferably can be by 3rd resistor R₃With second resistance R₂Proportional setting, without the reality to resistance Actual value is adjusted, and only by adjusting the ratio relation of the two, i.e., changeable current mirror circuit 1013 amplifies the multiple of electric current, It reduces to 3rd resistor R₃With second resistance R₂The requirement of precision.

Embodiment five

A kind of APFC control chip is present embodiments provided, as shown in figure 5, APFC control chip 50 includes: embodiment APFC control circuit described in one~example IV, the first pin T₁, second pin T₂, third pin T₃With the 4th pin T₄； The third input terminal of the output electric current counting circuit 101 of APFC control circuit passes through the first pin T₁With DC-DC converter 11 power switch tube Q_bSource electrode be connected；The first input end of the inductive current zero cross detection circuit 103 of APFC control circuit Pass through second pin T₂With power switch tube Q_bGrid be connected；The inductive current zero cross detection circuit 103 of APFC control circuit First input end passes through third pin T₃With direct current supply voltage V_CCIt is connected；The error calculation circuit 102 of APFC control circuit Input terminal passes through the 4th pin T₄It is connected with filter circuit 51.

APFC provided by the present embodiment, which controls chip, will directly export electric current counting circuit 101, error calculation circuit 102, inductive current zero cross detection circuit 103 and duty ratio counting circuit 104 are integrated on the same chip, and the number of pins of chip is only It is 4, so that the number and complexity of peripheral circuit are reduced, when making using APFC control chip increase power factor value, The debugging of circuit is simplified.

Embodiment six

A kind of LED drive circuit is present embodiments provided, as shown in fig. 6, the LED drive circuit includes: that DC-DC becomes APFC control circuit described in parallel operation 11, one~example IV of embodiment and filter circuit 51；Wherein, DC-DC converter 11 are used under the driving of APFC control circuit to the input voltage v of LED drive circuit_gIt is converted, obtains load LED needs DC voltage；Filter circuit 51, which is used for the current feedback that the output electric current counting circuit 101 to APFC control circuit generates, to be believed It number is filtered, current feedback signal is converted to the voltage feedback signal for characterizing the current feedback signal.

In above-mentioned LED drive circuit, AC-input voltage v_inBy rectification circuit (with bridge rectifier in the present embodiment For be illustrated) rectification and capacitor C_inFiltering after, become the input voltage v of direct current_g, then become using DC-DC Parallel operation 11 is under the driving of APFC control circuit, to input voltage v_gVoltage transformation is carried out, the work electricity of load LED is obtained Stream makes load LED shine.

The process of APFC control circuit driving DC-DC converter 11 is described later in detail in the above-described embodiments, Details are not described herein.It should be pointed out that generating current feedback signal I in output electric current counting circuit 101_FBIt exports and gives error meter Before calculating circuit 102, need using filter circuit 51 to current feedback signal I_FBIt is filtered, current feedback signal is transformed to Voltage feedback signal.

In the present embodiment, the DC-DC converter 11 can include: inductance L_bWith power switch tube Q_b, inductance L_b? One end is connected with the cathode of load LED, second end and power switch tube Q_bDrain electrode be connected.

In addition, the filter circuit 51 can include: the 4th resistance R₄With the 5th capacitor C₅；4th resistance R₄With the 5th capacitor C₅Parallel connection, the 4th resistance R₄First end pass through the 4th pin T₄With the input terminal of the error calculation circuit 102 of APFC control circuit It is connected, second end ground connection.

LED drive circuit provided by the present embodiment improves the function of DC-DC converter 11 using APFC control circuit Rate factor value, APFC control circuit is by making the power switch tube Q of DC-DC converter 11_bGrid voltage it is constant, only drive Dynamic power switch tube Q_bSource electrode method, driving power switching tube Q_bIt is switched on and off, makes power switch tube Q_bService time Constant, this driving side simplifies the debugging of APFC control circuit greatly.

And the present embodiment will can further export electric current counting circuit 101, error calculation circuit 102, inductive current mistake Zero detection circuit 103 and duty ratio counting circuit 104 are integrated in same chip, and the peripheral circuit number and complexity of chip are big It is big to reduce, when the chip is applied to LED drive circuit by user, make the debugging of LED drive circuit provided by the present embodiment It is simplified, it is convenient for users to use.

Although the present invention has been disclosed in the preferred embodiments as above, however, it is not intended to limit the invention.It is any to be familiar with ability The technical staff in domain, without departing from the scope of the technical proposal of the invention, all using in the methods and techniques of the disclosure above Appearance makes many possible changes and modifications or equivalent example modified to equivalent change to technical solution of the present invention.Therefore, Anything that does not depart from the technical scheme of the invention are made to the above embodiment any simple according to the technical essence of the invention Modification, equivalent variations and modification, all of which are still within the scope of protection of the technical scheme of the invention.

Claims (10)

1. a kind of active power factor correction controller IC characterized by comprising

First pin, second pin, third pin and the 4th pin；

Inductive current zero cross detection circuit, first input end are connected by the second pin with the grid of power switch tube It connects, and is connected by the third pin with direct current supply voltage, to detect the electric current for flowing through inductance, and in the inductance Electric current when being decreased to zero, generate comparison signal；

Export electric current counting circuit, including first switch tube, the first end of the first switch tube by first pin with The first end of the power switch tube is connected；

Error calculation circuit, input terminal are connected by the 4th pin with filter circuit, and the filter circuit is to described Output is to the error calculation circuit to generate compensation after the current feedback signal that output electric current counting circuit generates is filtered Signal；Duty ratio counting circuit receives the thermal compensation signal and the comparison signal to generate pulse width modulating signal and touching It signals, the pulse width modulating signal is exported to the output electric current counting circuit, to drive the power switch tube week The turn-on and turn-off of phase property；The trigger signal is exported to the output electric current counting circuit, to control the output galvanometer It calculates circuit and generates current feedback signal.

2. active power factor correction controller IC according to claim 1, which is characterized in that when the electric current of the inductance When zero passage, and pulse width modulating signal be high level when, the trigger signal be high level.

3. active power factor correction controller IC according to claim 1, which is characterized in that the output electric current calculates Circuit is when the electric current of the inductance reaches peak value, the voltage signal of the peak point current of output characterization power switch tube；Then root According to the voltage signal and the trigger signal, current feedback signal is generated.

4. active power factor correction controller IC according to claim 3, which is characterized in that the error calculation circuit The voltage feedback signal for characterizing the current feedback signal is received, is exported with to generate thermal compensation signal and calculates electricity to the duty ratio Road.

5. active power factor correction controller IC according to claim 1, which is characterized in that

The source electrode of the power switch tube of the drain electrode and DC-DC converter of the first switch tube is connected, the first switch The source electrode of pipe is grounded；

The grid of the first switch tube receives the pulse width modulating signal, described in the pulse width modulating signal control The on and off of first switch tube, and then output is controlled to the voltage signal of the source electrode of the power switch tube, and then makes institute State the periodic on and off of power switch tube.

6. active power factor correction controller IC according to claim 1, which is characterized in that the output electric current calculates Circuit includes inductive current peak detection circuit and current feedback signal generation circuit,

The input terminal of the inductive current peak detection circuit is connected with the drain electrode of the first switch tube, output end and the electricity The input terminal for flowing feedback signal generation circuit is connected, and whether the electric current for detecting the inductance of DC-DC converter reaches peak value, And the electric current of the inductance in the DC-DC converter will characterize the voltage of the current peak of the inductance when reaching peak value Signal is exported to the current feedback signal generation circuit；

The current feedback signal generation circuit receives the voltage signal of the current peak of the characterization inductance, and according to institute The trigger signal of duty ratio counting circuit output is stated, to generate the current feedback signal.

7. active power factor correction controller IC according to claim 1, which is characterized in that the error calculation circuit Including trsanscondutance amplifier and third capacitor；

The non-inverting input terminal of the trsanscondutance amplifier receives voltage reference signal, and inverting input terminal, which receives, characterizes the current feedback The voltage feedback signal of signal, output end are connect with the first end of the third capacitor；

The second end of third capacitor is grounded, and the voltage signal of first end is as the thermal compensation signal.

8. active power factor correction controller IC according to claim 7, which is characterized in that the error calculation circuit It further include third controllable switch,

The first end of the third controllable switch is connect with the output end of the trsanscondutance amplifier, and the of the third controllable switch Two ends are connected with the first end of the third capacitor,

Wherein, the third controllable switch is controlled by the signal that a duty ratio is less than or equal to 0.05.

9. active power factor correction controller IC according to claim 1, which is characterized in that the inductive current zero passage Detection circuit includes bias voltage source and third comparator；

The anode of the bias voltage source is as the first input end of the inductive current zero cross detection circuit and direct current supply electricity Pressure is connected, and cathode is connected with the non-inverting input terminal of the third comparator；

The inverting input terminal of the third comparator as the inductive current zero cross detection circuit the second input terminal with it is described The source electrode of power switch tube is connected, and output end exports the comparison signal to the duty ratio counting circuit.

10. a kind of LED drive circuit characterized by comprising described in DC-DC converter, any one of claim 1~9 Active power factor correction controller IC and filter circuit；

The DC-DC converter is used to drive the LED under the driving of the active power factor correction controller IC The input voltage of dynamic circuit is converted, to generate output electric current；

The current feedback signal is converted to characterization for being filtered to the current feedback signal by the filter circuit The voltage feedback signal of the current feedback signal.