CN108271285A - The LED dimming driving circuits and Switching Power Supply of a kind of closed loop framework - Google Patents
The LED dimming driving circuits and Switching Power Supply of a kind of closed loop framework Download PDFInfo
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- CN108271285A CN108271285A CN201611261207.XA CN201611261207A CN108271285A CN 108271285 A CN108271285 A CN 108271285A CN 201611261207 A CN201611261207 A CN 201611261207A CN 108271285 A CN108271285 A CN 108271285A
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/30—Driver circuits
- H05B45/37—Converter circuits
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/10—Controlling the intensity of the light
Abstract
The present invention provides the LED dimming driving circuits and Switching Power Supply of a kind of closed loop framework, for including the Switching Power Supply of power switch and energy-storage units, including:Sample circuit, circuit for signal conditioning and turn-on time generation circuit.Wherein, sample circuit receives the first signal of the output current of characterization Switching Power Supply.Circuit for signal conditioning receives the first signal and a reference signal, and the first signal is adjusted so that the first signal approach is equal to the reference signal, and generates a Regulate signal.Turn-on time generation circuit generates the first turn-on time signal of power switch according to Regulate signal.As it can be seen that the light adjusting circuit that this programme provides is closed loop circuit, when detecting that output current is less than the rated value of light modulator, the peak value of external inductance can be increased so that output current is not less than default rated value, therefore, when avoiding wide-angle and powering on, there is the problem of power down stream.
Description
Technical field
The present invention relates to field of switch power, more specifically, being to be related to a kind of LED dimming driving circuits of closed loop framework
And Switching Power Supply.
Background technology
With the rapid development of electronics and information industry, Switching Power Supply is widely used in computer, power equipment, instrument
The fields such as instrument, LED illumination, medical instrument, military industry equipment.In general, Switching Power Supply be by external alternating current (such as alternating current 220V,
380V etc.) stable DC is converted into supply load.
However, being continuously increased with user demand, light modulation becomes a developing direction, and at present, the light modulation of LED needs to lead to
Light modulator is crossed to be adjusted the electric current of circuit, but, in the system for being connected to light modulator, usually in system electrification, light modulator
Has certain light modulation angle, at this moment output current can form power down, and then less than the rated value of light modulator so that light modulator cannot
Normal work, can not meet products standards.
Invention content
In view of this, the present invention provides the LED dimming driving circuits and Switching Power Supply of a kind of closed loop framework, to overcome
When wide-angle powers in the prior art, there is the problem of power down stream.
To achieve the above object, the present invention provides following technical solution:
A kind of LED dimming driving circuits of closed loop framework, for including the Switching Power Supply of power switch and energy-storage units, institute
LED dimming driving circuits are stated to include:Power switch pipe cut-off time control circuit, power switch pipe turn-on instant control circuit with
And power switch tube drives circuit, the power switch pipe cut-off time control circuit include:Sample circuit, Signal Regulation electricity
Road and turn-on time generation circuit;
The sample circuit receives the first signal of the output current for characterizing the Switching Power Supply;
The circuit for signal conditioning receives first signal and a reference signal, and first signal is adjusted
Section so that the first signal approach is equal to the reference signal, and generate a Regulate signal;
The turn-on time generation circuit, the first turn-on time that the power switch is generated according to the Regulate signal are believed
Number.
Preferably, the circuit for signal conditioning, including:It is averaging circuit, error amplifier and compensation circuit;
The averaging circuit receives the voltage peak of first signal, and average value fortune is carried out to the voltage peak
It calculates, obtains the first average value signal;
The error amplifier, first average value signal and the reference signal make described first to be averaged
Value signal levels off to the reference signal, and exports a comparison signal;
The compensation circuit receives the comparison signal of the error amplifier output, the comparison signal is carried out
Compensation operation exports the Regulate signal.
Preferably, the circuit for signal conditioning, further includes:Clamp circuit;
The clamp circuit, by the Regulate signal clamper in a pre-set value.
Preferably, the turn-on time generation circuit further includes turn-on time and adjusts unit;
The turn-on time adjusts unit, when generating the cut-off of a control power switch pipe according to the first predetermined current
The the second turn-on time signal carved.
Preferably, it further includes:Depth light adjusting circuit, the depth light adjusting circuit include:Duty ratio sample circuit and letter
Number conversion circuit;
The duty ratio sample circuit samples the duty ratio of the Switching Power Supply;
The duty cycle signals are converted to the first electric signal by the signaling conversion circuit, and first electric signal is added in
In the turn-on time generation circuit, believed with the third turn-on time for generating the cut-off time of a control power switch pipe
Number.
Preferably, the sample circuit, including:First switch pipe and the first capacitance;
Input terminal of the first end of the first switch pipe as the sample circuit, the output terminal of the first switch pipe
It is connected with the first end of first capacitance, and as the output terminal of the sample circuit, the second termination of first capacitance
Ground, the control of the first switch pipe terminate the first turn-on time signal.
Preferably, the averaging circuit includes:Second switch pipe, third switching tube and the first phase inverter;
Input terminal of the first end of the second switch pipe as the averaging circuit, the second of the second switch pipe
End be connected with the first end of the third switching tube, and as it is described averaging circuit output terminal, the second switch pipe
Control terminal receives the first deadline signal that the power switch pipe turn-on instant control circuit generates, during first cut-off
Between signal be connected by first phase inverter with the control terminal of the third switching tube, the third switching tube second termination
Ground.
Preferably, the compensation circuit includes:Compensating electric capacity;
The first end of the compensating electric capacity is connected with the output terminal of the error amplifier, the second end of the compensating electric capacity
Ground connection.
Preferably, the clamp circuit includes:Clamp diode;
The plus earth of the clamp diode, the output terminal of the cathode of the clamp diode and the error amplifier
It is connected, and as the output terminal of the circuit for signal conditioning.
Preferably, the turn-on time adjusts unit and includes:Regulation resistance, current source, the second capacitance and the 4th switch
Pipe;
The first end of the regulation resistance adjusts the input terminal of unit as the turn-on time, and the of the regulation resistance
Two ends are connected with the control terminal of the current source, and the current source is connected with second capacitance, the 4th switching tube and institute
The parallel connection of the second capacitance is stated, the control terminal of the 4th switching tube receives the inverted signal of the first turn-on time signal.
Preferably, the duty ratio sample circuit includes:Peak value sampling circuit and first comparator,
The input terminal of the peak value sampling circuit is connected with the input terminal of the sample circuit, and output terminal compares with described first
Inverting input compared with device is connected, and the noninverting input of the first comparator is connected with the output terminal of the sample circuit, uses
In the input terminal voltage and output end voltage of the sample circuit, and generate the duty cycle signals.
Preferably, the signaling conversion circuit includes:Wave filter, operational amplifier, the 5th switching tube and current mirror,
Input terminal of the input terminal of the wave filter as the signaling conversion circuit, with the duty ratio sample circuit
Output terminal is connected, and the output terminal of the wave filter is connected with the first input end of the operational amplifier, the operational amplifier
The second input terminal be connected with the output terminal of the 5th switching tube, the output terminal of the operational amplifier with the described 5th switch
The control terminal of pipe is connected, and the input terminal of the 5th switching tube is connected with the input terminal of the current mirror, the current mirror it is defeated
Output terminal of the outlet as the signaling conversion circuit exports first electric signal.
Preferably, the turn-on time generation circuit further includes:Second comparator and or door;
Input terminal of the first input end of second comparator as the turn-on time generation circuit, second ratio
The second input terminal compared with device is connected with the output terminal of turn-on time adjusting unit, the output terminal of second comparator and institute
It states or the first input end of door is connected, described or door the second input terminal receives the front end letter of the first turn-on time signal
Number, output terminal of described or door the output terminal as the turn-on time generation circuit.
A kind of Switching Power Supply, including the above-mentioned LED dimming driving circuits of any one.
It can be seen via above technical scheme that compared with prior art, the present invention provides a kind of LED tune of closed loop framework
Light drive circuit, for including the Switching Power Supply of power switch and energy-storage units, the LED dimming driving circuits include:Power
Switching tube cut-off time control circuit, power switch pipe turn-on instant control circuit and power switch tube drives circuit, wherein,
The power switch pipe cut-off time control circuit includes:Sample circuit, circuit for signal conditioning and turn-on time generate electricity
Road.Wherein, sample circuit receives the first signal of the output current for characterizing the Switching Power Supply.Circuit for signal conditioning receives institute
The first signal and a reference signal are stated, and first signal is adjusted so that the first signal approach is equal to the base
Calibration signal, and generate a Regulate signal.Turn-on time generation circuit generates the of the power switch according to the Regulate signal
One turn-on time signal.As it can be seen that the light adjusting circuit that this programme provides is closed loop circuit, when detecting that output current is less than light modulator
Rated value when, the peak value of external inductance can be increased so that output current is not less than default rated value, therefore, avoids big
When angle powers on, there is the problem of power down stream.
Description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, to embodiment or will show below
There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
The embodiment of invention, for those of ordinary skill in the art, without creative efforts, can also basis
The attached drawing of offer obtains other attached drawings.
Fig. 1 is a kind of structure diagram of Switching Power Supply provided in this embodiment;
Fig. 2 is a kind of structure diagram of LED dimming driving circuits provided in this embodiment;
Fig. 3 is the structure diagram of another LED dimming driving circuit provided in this embodiment;
Fig. 4 is the structure diagram of another LED dimming driving circuit provided in this embodiment;
Fig. 5 is the structure diagram of another LED dimming driving circuit provided in this embodiment;
Fig. 6 is the structure diagram of another LED dimming driving circuit provided in this embodiment;
Fig. 7 is the structure diagram of another LED dimming driving circuit provided in this embodiment;
Fig. 8 is the structure diagram of another LED dimming driving circuit provided in this embodiment;
Fig. 9 is the structure diagram of another LED dimming driving circuit provided in this embodiment;
Figure 10 is the structure diagram of another LED dimming driving circuit provided in this embodiment;
Figure 11 is a kind of dimming process schematic diagram of LED dimming driving circuits provided in this embodiment;
Figure 12-Figure 15 is the schematic diagram for the peak value that a kind of LED dimming driving circuits provided in this embodiment acquire CS signals;
Figure 16 is the dimming curve figure using LED dimming driving circuits provided in this embodiment.
Specific embodiment
Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work
Embodiment shall fall within the protection scope of the present invention.
Referring to Fig. 1, for a kind of structure diagram of Switching Power Supply provided in this embodiment, wherein, including:Light modulator
Dimmer, primary side winding, load LED, resistance and driving chip, the driving chip include power switch pipe Drain with
And multiple input port, such as CS, RT, Comp, Vcc and GND.
Wherein, as shown in Fig. 2, a kind of LED dimming driving circuits of closed loop framework provided in this embodiment, including:Power
Switching tube switches off control circuit 10, power switch pipe turn-on control circuit 20 and power switch tube drives circuit 30.Specifically,
The present embodiment, which emphatically switches off control circuit to power switch pipe, 10 to be introduced, as shown in figure 3, including:Sample circuit 101, letter
Number adjust circuit 102 and turn-on time generation circuit 103.
Wherein, the sample circuit receives the first signal of the output current for characterizing the Switching Power Supply.Signal Regulation electricity
Road receives first signal and a reference signal, and first signal is adjusted so that the first signal approach
Equal to the reference signal, and generate a Regulate signal.Turn-on time generation circuit generates the power according to the Regulate signal
First turn-on time signal of switch.
As it can be seen that the light adjusting circuit that this programme provides is closed loop circuit, when the first signal for detecting characterization output current is small
When reference signal (rated value of light modulator), the first turn-on time of the power switch can be generated according to the Regulate signal
Signal Tonp, and then increase the peak value of output voltage so that output current is not less than default rated value, therefore, avoids big
When angle powers on, there is the problem of power down stream.
On the basis of above-described embodiment, as shown in figure 4, present embodiments providing a kind of specific reality of circuit for signal conditioning
Existing circuit, the adjusting circuit 102 include:It is averaging circuit 1021, error amplifier 1022 and compensation circuit 1023.
Wherein, the voltage peak for being averaging circuit 1021 and receiving first signal, carries out the voltage peak
Average value operation obtains the first average value signal.1,022 first average value signal of error amplifier and the base
Calibration signal makes first average value signal level off to the reference signal, and exports a comparison signal.Compensation circuit 1023 connects
The comparison signal of the error amplifier output is received, operation is compensated to the comparison signal, described adjust is exported and believes
Number.
On the basis of above-described embodiment, as shown in figure 5, the circuit for signal conditioning 102, further includes:Clamp circuit
1024.The clamp circuit is used for the Regulate signal clamper in a pre-set value (such as VHcomp, i.e. the first turn-on time signal
The maximum value of Tonp is clamped, and rear extended meeting is discussed in detail).
Optionally, as shown in fig. 6, the turn-on time generation circuit 103, which further includes turn-on time, adjusts unit 1031.Its
In, turn-on time adjusts unit and is led according to second that the first predetermined current generates a cut-off time for controlling the power switch pipe
Logical time signal.
Specifically, referring to Fig. 7, present embodiments provide the specific implementation circuit of each circuit, it is as follows:
The sample circuit 101, including:First switch pipe SW1 and the first capacitance C1.
Wherein, input terminal of the first end of the first switch pipe SW1 as the sample circuit 101, described first opens
The output terminal for closing pipe SW1 is connected with the first end of the first capacitance C1, and as the output terminal Vcs of the sample circuit, institute
The second end ground connection of the first capacitance C1 is stated, the control of the first switch pipe terminates the first turn-on time signal Tonp.
The averaging circuit includes:Second switch pipe SW2, third switching tube SW3 and the first phase inverter A1.
Wherein, input terminal of the first end of the second switch pipe SW2 as the averaging circuit 1021, described second
The second end of switching tube SW2 is connected with the first end of the third switching tube SW3, and as the output for being averaging circuit
End, the control terminal of the second switch pipe SW2 receive the first cut-off that the power switch pipe turn-on instant control circuit generates
Time signal Tons (it should be noted that the present embodiment is Buck-Boost frameworks, and such as under Buck system architectures, Ying Shi
Tons+Tonp), the control that the first deadline signal passes through the first phase inverter A1 and third switching tube SW3
End is connected, the second end ground connection of the third switching tube SW3.
The compensation circuit 1023 includes:Compensating electric capacity Ccomp.
The first end of the compensating electric capacity Ccomp is connected with the output terminal of the error amplifier Gm, the compensating electric capacity
The second end ground connection of Ccomp.
The clamp circuit 1025 includes:Clamp diode;
The plus earth of the clamp diode, the cathode of the clamp diode Hclamp and the error amplifier Gm
Output terminal be connected, and as the output terminal of the circuit for signal conditioning 102.
The turn-on time adjusts unit 1031 and includes:Regulation resistance RT, current source I1, the second capacitance C2 and the 4th
Switching tube SW4;
The first end of the regulation resistance RT adjusts the input terminal of unit, the regulation resistance RT as the turn-on time
Second end be connected with the control terminal of the current source I1, the current source I1 connects with the second capacitance C2, the described 4th
Switching tube SW4 is in parallel with the second capacitance C2, and the control terminal of the 4th switching tube SW4 receives the first turn-on time letter
The inverted signal of number Tonp.
The turn-on time generation circuit 103 further includes:Second comparator Comp and or door OR;
Input terminal of the first input end of the second comparator Comp as the turn-on time generation circuit, described
The output terminal that the second input terminal of two comparator Comp adjusts unit with the turn-on time is connected, the second comparator Comp
Output terminal be connected with described or door OR first input end, when described or door OR the second input terminal receives first conducting
Between signal front end signal Tonp LEB, output terminal of described or door OR output terminal as the turn-on time generation circuit.
Specifically, with reference to the connection relation and Figure 11 of foregoing circuit, power switch pipe shutdown control provided in this embodiment
The operation principle of circuit processed is:
The voltage value of CS ends acquisition characterization output current, and the voltage value is kept, by averaging circuit to the electricity
Pressure value carries out averaging processing, obtains voltage signal VN, and VN and reference signal Vref are compared so that VN levels off to base
Calibration signal Vref, and by the Regulate signal clamper that error amplifier Gm is exported a to fixed value, such as VHcomp.And due toSo Tonpmax is clamped at a fixed maximum value.
Later, by adjusting the resistance value of RT so that the electric current on RT is preset value, by the function of current to current source I1, is made
The output current of current source I1 is equal to preset value, and carries out charge and discharge to capacitance C2, and the second ratio is applied to generate a triangular wave
Compared with the noninverting input of device Comp.
With the increase of the light modulation angle of light modulator, i.e. Tonp2 > Tonp1 so that output current is consistently equal to without light modulation
Electric current during device.When tonp is increasing, when tonp=tonpmax, i.e., tonp is in tonp3's and tonp4 in figure
Period, output current reduce with the reduction of light modulation angle.
In addition, in the present solution, by sampling the current value on external inductance, tonp is adjusted, integrated circuit one
Closed loop configuration, i.e. tonp are not a fixed values in different light modulation angles, defeated when avoiding that high current powers in the prior art
The problem of going out electric current power down.
Except this, on the basis of above-described embodiment, the present embodiment additionally provides depth light adjusting circuit 104, as shown in Figure 8.
Specifically, the depth light adjusting circuit includes:Duty ratio sample circuit 1041 and signaling conversion circuit 1042, as shown in Figure 9.
Wherein, the duty ratio sample circuit 1041 samples the duty ratio of the Switching Power Supply.The signaling conversion circuit
1042, the duty cycle signals are converted into the first electric signal, first electric signal is added in the turn-on time generation circuit
In, to generate the third turn-on time signal of the cut-off time of a control power switch pipe.
Specifically, as shown in Figure 10, the duty ratio sample circuit includes:Peak value sampling circuit and first comparator,
Wherein, the input terminal of the peak value sampling circuit is connected with the input terminal of the sample circuit, output terminal with it is described
The inverting input of first comparator is connected, the noninverting input of the first comparator and the output terminal phase of the sample circuit
Even, for the input terminal voltage and output end voltage of the sample circuit, and the duty cycle signals are generated.
The signaling conversion circuit includes:Wave filter, operational amplifier, the 5th switching tube and current mirror.
Wherein, input terminal of the input terminal of the wave filter as the signaling conversion circuit is sampled with the duty ratio
The output terminal of circuit is connected, and the output terminal of the wave filter is connected with the first input end of the operational amplifier, the operation
Second input terminal of amplifier is connected with the output terminal of the 5th switching tube, the output terminal of the operational amplifier and described the
The control terminal of five switching tubes is connected, and the input terminal of the 5th switching tube is connected with the input terminal of the current mirror, the electric current
Output terminal of the output terminal of mirror as the signaling conversion circuit exports first electric signal, first described in the present embodiment
Electric signal is a current signal.
With reference to Figure 12-Figure 15, the operation principle of depth light adjusting circuit provided in this embodiment is illustrated, wherein,
Vcspk refers to the maximum potential at CS ends in power frequency period, and Vcs refers to the envelope of CS terminal voltages in power frequency period.
Duty signals are as follows with the relationship of corner cut information:
150 Duty of θ > (θ)=1- (180-30-30)/180
150>90 Duty of θ > (θ)=1- (θ -30)/180
90>0 Duty of θ > (θ)=1- (θ-arcsin (0.5*sin θ))/180
After 150 degree, with the variation of corner cut, the duty ratio of Duty signals changes always, i.e. Duty (θ), which is reflected, to be cut
The situation at angle.And before 150 degree, the duty ratio of Duty signals is constant, so 150 degree of pervious corner cut variations will not be detected
It arrives.
In Figure 10, after the Duty signals under obtaining a certain corner cut, Duty signals are converted by a wave filter
Vduty signals.Because the duty ratio of Duty signals reflects corner cut at this time, this duty cycle signals is converted into one by wave filter
A voltage signal Vduty, and the bigger Vduty values of duty ratio of Duty signals are bigger.Vduty signals turn using a voltage
Current module generates the generation that Iduty electric currents influence the Tonpmax of final chip interior.Tonpmax signals directly determine core
The size of the output current of piece control.So the intervention of Vduty signals can influence final output current, it is defeated under different corner cuts
Go out electric current difference, can obtain a modified dimming curve, as shown in figure 16.It should be noted that Figure 10 is a Duty
Generating influences the embodiment of dimming curve with Duty, and there are many kinds of the methods that duty is generated, for example Vcs is more than a certain specific voltage
Etc.;Duty influence dimming curve method also there are many kinds of, such as with duty go influence integral loop in Vref signal,
The present embodiment is without specifically limiting.
Since the Tonpmax after being adjusted by duty signals is:
Tonpmax=(Vcomphclamp × C1)/(IRT+Iduty)
As it can be seen that Iduty increases with the reduction of light modulation angle, then Tonpmax can subtract with the reduction of light modulation angle
It is small, and then output current becomes smaller with the reduction of light modulation angle afterwards.
Except this, the present embodiment additionally provides a kind of Switching Power Supply, including any one closed loop framework in above-described embodiment
LED dimming driving circuits.
In summary:The present invention provides a kind of LED dimming driving circuits of closed loop framework, for include power switch and
The Switching Power Supply of energy-storage units, the LED dimming driving circuits include:Power switch pipe cut-off time control circuit, power are opened
Pipe turn-on instant control circuit and power switch tube drives circuit are closed, wherein, the power switch pipe cut-off time control electricity
Road includes:Sample circuit, circuit for signal conditioning and turn-on time generation circuit.Wherein, sample circuit receives opens described in characterization
First signal of the output current in powered-down source.Circuit for signal conditioning receives first signal and a reference signal, and to described
First signal is adjusted so that the first signal approach is equal to the reference signal, and generate a Regulate signal.Turn-on time
Generation circuit generates the first turn-on time signal of the power switch according to the Regulate signal.As it can be seen that this programme provided
Light adjusting circuit is closed loop circuit, when detecting that output current is less than the rated value of light modulator, can increase the peak value of external inductance,
So that output current is not less than default rated value, therefore, avoids big when wide-angle powers on, the problem of power down stream occur.
Each embodiment is described by the way of progressive in this specification, the highlights of each of the examples are with other
The difference of embodiment, just to refer each other for identical similar portion between each embodiment.The device provided for embodiment
For, since it is corresponding with the method that embodiment provides, so description is fairly simple, related part is said referring to method part
It is bright.
Above description to the embodiment provided, enables professional and technical personnel in the field to realize or use the present invention.
A variety of modifications of these embodiments will be apparent for those skilled in the art, it is as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, it is of the invention
The embodiments shown herein is not intended to be limited to, and is to fit to and principle provided in this article and features of novelty phase one
The most wide range caused.
Claims (14)
1. a kind of LED dimming driving circuits of closed loop framework, described for including the Switching Power Supply of power switch and energy-storage units
LED dimming driving circuits include:Power switch pipe cut-off time control circuit, power switch pipe turn-on instant control circuit and
Power switch tube drives circuit, which is characterized in that the power switch pipe cut-off time control circuit includes:Sample circuit, letter
Number adjust circuit and turn-on time generation circuit;
The sample circuit receives the first signal of the output current for characterizing the Switching Power Supply;
The circuit for signal conditioning receives first signal and a reference signal, and first signal is adjusted, and makes
It obtains the first signal approach and is equal to the reference signal, and generate a Regulate signal;
The turn-on time generation circuit generates the first turn-on time signal of the power switch according to the Regulate signal.
2. LED dimming driving circuits according to claim 1, which is characterized in that the circuit for signal conditioning, including:It asks
Average circuit, error amplifier and compensation circuit;
The averaging circuit receives the voltage peak of first signal, carries out average value operation to the voltage peak, obtains
To the first average value signal;
The error amplifier, first average value signal and the reference signal believe first average value
It number levels off to the reference signal, and exports a comparison signal;
The compensation circuit receives the comparison signal of the error amplifier output, the comparison signal is compensated
Operation exports the Regulate signal.
3. LED dimming driving circuits according to claim 2, which is characterized in that the circuit for signal conditioning further includes:
Clamp circuit;
The clamp circuit, by the Regulate signal clamper in a pre-set value.
4. LED dimming driving circuits according to claim 1, which is characterized in that the turn-on time generation circuit is also wrapped
It includes turn-on time and adjusts unit;
The turn-on time adjusts unit, and the cut-off time of a control power switch pipe is generated according to the first predetermined current
Second turn-on time signal.
5. LED dimming driving circuits according to claim 1, which is characterized in that further include:Depth light adjusting circuit, it is described
Depth light adjusting circuit includes:Duty ratio sample circuit and signaling conversion circuit;
The duty ratio sample circuit samples the duty ratio of the Switching Power Supply;
The duty cycle signals are converted to the first electric signal by the signaling conversion circuit, and first electric signal is added in described
In turn-on time generation circuit, to generate the third turn-on time signal of the cut-off time of a control power switch pipe.
6. LED dimming driving circuits according to claim 1, which is characterized in that the sample circuit, including:First opens
Close pipe and the first capacitance;
Input terminal of the first end of the first switch pipe as the sample circuit, the output terminal of the first switch pipe and institute
The first end for stating the first capacitance is connected, and as the output terminal of the sample circuit, and the second end of first capacitance is grounded, institute
The control for stating first switch pipe terminates the first turn-on time signal.
7. LED dimming driving circuits according to claim 2, which is characterized in that the averaging circuit includes:Second opens
Guan Guan, third switching tube and the first phase inverter;
The first end of the second switch pipe as it is described be averaging circuit input terminal, the second end of the second switch pipe with
The first end of the third switching tube is connected, and as the output terminal for being averaging circuit, the control of the second switch pipe
End receives the first deadline signal that the power switch pipe turn-on instant control circuit generates, the first deadline letter
Number it is connected by first phase inverter with the control terminal of the third switching tube, the second end ground connection of the third switching tube.
8. LED dimming driving circuits according to claim 2, which is characterized in that the compensation circuit includes:Compensation electricity
Hold;
The first end of the compensating electric capacity is connected with the output terminal of the error amplifier, the second termination of the compensating electric capacity
Ground.
9. LED dimming driving circuits according to claim 3, which is characterized in that the clamp circuit includes:Two pole of clamper
Pipe;
The plus earth of the clamp diode, the output terminal phase of the cathode of the clamp diode and the error amplifier
Even, and as the output terminal of the circuit for signal conditioning.
10. LED dimming driving circuits according to claim 4, which is characterized in that the turn-on time adjusts unit packet
It includes:Regulation resistance, current source, the second capacitance and the 4th switching tube;
The first end of the regulation resistance adjusts the input terminal of unit, the second end of the regulation resistance as the turn-on time
It is connected with the control terminal of the current source, the current source is connected with second capacitance, the 4th switching tube and described the
Two capacitances are in parallel, and the control terminal of the 4th switching tube receives the inverted signal of the first turn-on time signal.
11. LED dimming driving circuits according to claim 5, which is characterized in that the duty ratio sample circuit includes:
Peak value sampling circuit and first comparator,
The input terminal of the peak value sampling circuit is connected with the input terminal of the sample circuit, output terminal and the first comparator
Inverting input be connected, the noninverting input of the first comparator is connected with the output terminal of the sample circuit, for than
The input terminal voltage and output end voltage of the sample circuit, and generate the duty cycle signals.
12. LED dimming driving circuits according to claim 5, which is characterized in that the signaling conversion circuit includes:Filter
Wave device, operational amplifier, the 5th switching tube and current mirror,
Input terminal of the input terminal of the wave filter as the signaling conversion circuit, the output with the duty ratio sample circuit
End is connected, and the output terminal of the wave filter is connected with the first input end of the operational amplifier, and the of the operational amplifier
Two input terminals are connected with the output terminal of the 5th switching tube, the output terminal of the operational amplifier and the 5th switching tube
Control terminal is connected, and the input terminal of the 5th switching tube is connected with the input terminal of the current mirror, the output terminal of the current mirror
As the output terminal of the signaling conversion circuit, first electric signal is exported.
13. LED dimming driving circuits according to claim 4, which is characterized in that the turn-on time generation circuit is also wrapped
It includes:Second comparator and or door;
Input terminal of the first input end of second comparator as the turn-on time generation circuit, second comparator
The second input terminal and the turn-on time adjust the output terminal of unit and be connected, the output terminal of second comparator with it is described or
The first input end of door is connected, and described or door the second input terminal receives the front end signal of the first turn-on time signal, institute
It states or output terminal of the output terminal of door as the turn-on time generation circuit.
14. a kind of Switching Power Supply, which is characterized in that including the LED light modulation driving electricity as described in claim 1-13 any one
Road.
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