CN101056055A - Reverse current prevention circuit capable of self-correcting reference benchmark - Google Patents

Abstract

The synchronous switch-mode voltage converter has a first switch, a second switch and an electrical inductance that are all coupled to a switch node. The circuit for preventing the reverse current includes a fixed reference current source, a correcting circuit, a circuit for generating variable reference circuit and a comparing circuit. The correcting circuit generates a correcting signal on the basis of the comparison of the electrical inductance and the fixed reference current source. The circuit generating variable reference current generates the variable reference current signals which are adjusted according to the correcting signals. A preventing signal is added to the second switch which will be in non-conduction state on the basis of the comparison of electrical inductance current and the variable reference current signals.

Description

Reverse current prevention circuit capable of self-correcting reference benchmark

Technical field

The present invention especially about a kind of backward current preventing circuit that is used for synchronous switched voltage converter, can revise reference data so that prevent the generation of backward current exactly about a kind of backward current preventing circuit automatically.

Background technology

Fig. 1 (a) shows the circuit diagram of known synchronous switched voltage converter 10.Synchronous switched voltage converter 10 is with input voltage source V _InConvert output voltage V to _Out, and be supplied to load Ld.Side switch SH is coupled in input voltage source V _InAnd between switching node SN, side switch SL then is coupled between switching node SN and ground potential.In the example shown in Fig. 1 (a), side switch SH is implemented side switch SL by the PMOS electric crystal and is then implemented by the NMOS electric crystal.Inductance L is coupled between switching node SN and output O.Control circuit 11 applies switch-over control signal CS to drive circuit 12, to produce upside drive signal PH and downside drive signal PL.The conducting and not conducting of upside drive signal PH decision side switch SH, and the conducting and not conducting of downside drive signal PL decision side switch SL.In response to output voltage V _OutFeedback, control circuit 11 is adjusted the duty cycle (Duty Cycle) of switch-over control signal CS, to regulate output voltage V _OutIn addition, output capacitance C _oBe coupled in output O, so that to output voltage V _OutCarry out filtering.

Fig. 1 (b) shows the operation waveform sequential chart of known synchronous switched voltage converter 10.Switch-over control signal CS is respectively via last side drive circuit 12H and following side drive circuit 12L and anti-phase formation upside drive signal PH and downside drive signal PL.In the stage of time T 1 to T2, upside drive signal PH and downside drive signal PL all are in low level, so side switch SH conducting and not conducting of side switch SL, make inductive current I _LDirection flow to output O (this is defined as positive direction) by switching node SN and its absolute value increases gradually.In the stage of time T 2 to T4, upside drive signal PH and downside drive signal PL all are in high level, so side switch not conducting of SH and side switch SL conducting, make inductive current I _LAbsolute value reduce gradually.Please note when time T 3 inductive current I _LAbsolute value be reduced to zero, therefore from time T 3 to T4, inductive current I _LDirection be reversed into by output O and flow to switching node SN (this is defined as negative direction).In the stage of time T 4 to T6, upside drive signal PH and downside drive signal PL all are in low level, so side switch SH conducting and not conducting of side switch SL.Owing to inductive current I this moment _LDirection for negative, so inductive current I _LAbsolute value reduce gradually.Up to from time T 5, inductive current I _LDirection just just changing into and its absolute value increases gradually.

In Fig. 1 (b), the phenomenon of the region representation generation backward current of oblique line part.As inductive current I _LDirection when flowing to switching node SN by output O, energy is by the reverse synchronous switched voltage converter 10 that is supplied to of external loading Ld.Because backward current causes the conversion efficiency of synchronous switched voltage converter 10 to reduce, so must manage to prevent the generation of backward current.

Fig. 2 (a) shows the circuit diagram of the backward current preventing circuit 23 of known first example.Backward current preventing circuit 23 has a current comparison circuit 24, a fixed reference current source I _Ref, an and AND logic lock 25.The non-inverting input of current comparison circuit 24 is in order to the receiving inductance electric current I _L, and inverting input is in order to receive fixed reference current source I _RefOne of AND logic lock 25 input is in order to receiving switch-over control signal CS, and the anti-stop signal RI that exported in order to received current comparison circuit 24 of another input.The output of AND logic lock 25 is coupled to down side drive circuit 12L, with decision downside drive signal PL.

Fig. 2 (b) shows the operation waveform sequential chart of the backward current preventing circuit 23 of known first example.Suppose fixed reference current source I _RefBe set at zero.In the stage of time T 1 to T2, switch-over control signal CS is that high level and anti-stop signal RI are high level, makes upside drive signal PH and downside drive signal PL all be in low level.Therefore, side switch SH conducting and not conducting of side switch SL make inductive current I _LDirection for just and its absolute value increase gradually.At time T 2 places, switch-over control signal CS is transformed into low level, makes upside drive signal PH and downside drive signal PL all be transformed into high level.Therefore, not conducting of side switch SH and side switch SL conducting make inductive current I _LAbsolute value reduce gradually.At time T 3 places, because inductive current I _LAbsolute value be decreased to zero, so prevent that stop signal RI changes low level into and causes downside drive signal PL to become low level.Therefore, side switch SL enters not on-state to prevent inductive current I _LDirection take a turn for the worse.

Yet, because the actual operational speed of current comparison circuit 24 is limited, so inductive current I _LAbsolute value be decreased to the time point that zero time point and anti-stop signal RI are applied to side switch SL, have a time of delay between the two.In other words, in this time of delay, inductive current I _LDirection still can take a turn for the worse.The shortcoming that can't prevent backward current fully that causes time of delay is planted in the i.e. expression of oblique line part among Fig. 2 (b) thus.Moreover along with the variation of integrated circuit manufacture process itself and the variation of operating temperature, the service speed of current comparison circuit 24 also can change.As a result, be not a fixed value time of delay that current comparison circuit 24 is caused, thereby more difficultly eliminate this kind time of delay by fixing offset current (offset current) is set with expectation.

Fig. 3 (a) shows the circuit diagram of the backward current preventing circuit 33 of known second example.Backward current preventing circuit 33 has a voltage comparator circuit 34, a fixed voltage reference V _Ref, an and AND logic lock 35.The non-inverting input of voltage comparator circuit 34 is in order to receive the voltage V at switching node SN place _SN, and inverting input is in order to receive fixed voltage reference V _RefOne input of AND logic lock 35 is in order to reception switch-over control signal CS, and another input is in order to receive the anti-stop signal RV that voltage comparator circuit 34 is exported.The output of AND logic lock 35 is coupled to down side drive circuit 12L, with decision downside drive signal PL.

Fig. 3 (b) shows the operation waveform sequential chart of the backward current preventing circuit 33 of known second example.Suppose fixed voltage reference V _RefBe set at zero.In the stage of time T 1 to T2, switch-over control signal CS is that high level and anti-stop signal RV are high level, makes upside drive signal PH and downside drive signal PL all be in low level.Therefore, side switch SH conducting and not conducting of side switch SL make the voltage V at switching node SN place _SNDraw high and become to equal input voltage source V _InAt time T 2 places, switch-over control signal CS is transformed into low level, makes upside drive signal PH and downside drive signal PL all be transformed into high level.Therefore, not conducting of side switch SH and side switch SL conducting make inductive current I _LFlow to inductance L and output O from ground potential (zero potential) via side switch SL, cause the voltage V at switching node SN place _SNBecome negative polarity rapidly.Subsequently, because inductive current I _LAbsolute value reduce the voltage V at switching node SN place gradually _SNGradually towards ground potential (zero potential) convergence.At time T 3 places, because the voltage V at switching node SN place _SNReached zero potential and changed into positive polarity,, made downside drive signal PL be transformed into low level so anti-stop signal RV changes high level into.Therefore, side switch SL enters not on-state to prevent inductive current I _LDirection take a turn for the worse.

Yet, because the actual operational speed of voltage comparator circuit 34 is limited, so the voltage V at switching node SN place _SNReach the time point that zero time point and anti-stop signal RV are applied to side switch SL, have a time of delay between the two.In other words, in this time of delay, inductive current I _LDirection still can take a turn for the worse.The shortcoming that can't prevent backward current fully that causes time of delay is planted in the i.e. expression of oblique line part among Fig. 3 (b) thus.Moreover along with the variation of integrated circuit manufacture process itself and the variation of operating temperature, the service speed of voltage comparator circuit 34 also can change.As a result, be not a fixed value time of delay that voltage comparator circuit 34 is caused, thereby more difficultly eliminate this kind time of delay by fixing bucking voltage (offset voltage) is set with expectation.

Summary of the invention

In view of foregoing problems, the object of the present invention is to provide a kind of backward current preventing circuit, be applied to synchronous switched voltage converter, can revise reference data automatically so that prevent the generation of backward current exactly.

According to an aspect of of the present present invention, a kind of backward current preventing circuit is provided, be applied in the synchronous switch type electric voltage converter.This synchronous switched voltage converter has one first switch, a second switch and an inductance, and three's coupled in common is switched node in one.When this first switch conduction and this not conducting of second switch, an inductive current of this inductance of flowing through increases.When this first not conducting of switch and this second switch conducting, this inductive current then reduces.This backward current preventing circuit comprises: a fixed reference current source, a correction circuit, a circuit generating variable reference current and a comparison circuit.Based on the comparison between this inductive current and this fixed reference current source, correction circuit produces a corrected signal.Circuit generating variable reference current produces a variable reference current signals, and it is adjusted according to this corrected signal.Based on the comparison between this inductive current and this variable reference current signals, comparison circuit applies an anti-stop signal to this second switch, makes this not conducting of second switch.

According to another aspect of the present invention, a kind of backward current preventing circuit is provided, be applied in the synchronous switch type electric voltage converter.This synchronous switched voltage converter has one first switch, a second switch and an inductance, and three's coupled in common is switched node in one.When this first switch conduction and this not conducting of second switch, an inductive current of this inductance of flowing through increases.When this first not conducting of switch and this second switch conducting, this inductive current then reduces.This backward current preventing circuit comprises: a fixed voltage reference, a correction circuit, a variable reference voltage generation circuit and a comparison circuit.Based on voltage of this switching node and the comparison between this fixed voltage reference, correction circuit produces a corrected signal.The variable reference voltage generation circuit produces a variable reference voltage signal, and it is adjusted according to this corrected signal.Based on this voltage of this switching node and the comparison between this variable reference voltage signal, comparison circuit applies an anti-stop signal to this second switch, makes this not conducting of second switch.

Description of drawings

Fig. 1 (a) shows the circuit diagram of known synchronous switched voltage converter.

Fig. 1 (b) shows the operation waveform sequential chart of known synchronous switched voltage converter.

Fig. 2 (a) shows the circuit diagram of the backward current preventing circuit of known first example.

Fig. 2 (b) shows the operation waveform sequential chart of the backward current preventing circuit of known first example.

Fig. 3 (a) shows the circuit diagram of the backward current preventing circuit of known second example.

Fig. 3 (b) shows the operation waveform sequential chart of the backward current preventing circuit of known second example.

Fig. 4 shows the circuit diagram according to the backward current preventing circuit of the present invention's first example.

Fig. 5 shows the circuit diagram according to the backward current preventing circuit of the present invention's second example.

Fig. 6 shows the circuit diagram according to circuit generating variable reference current of the present invention.

Fig. 7 shows the circuit diagram according to variable reference voltage generation circuit of the present invention.

Embodiment

Explanation hereinafter and accompanying drawing will make aforementioned and other purposes of the present invention, feature, more obvious with advantage.Describe in detail according to preferred embodiment of the present invention with reference to the accompanying drawings.

Fig. 4 shows the circuit diagram according to the backward current preventing circuit 43 of the present invention's first example.With reference to Fig. 4, backward current preventing circuit 43 has a current comparison circuit 44, an AND logic lock 45, a circuit generating variable reference current 46, an electric current correction circuit 47 and a fixed reference current source I _RefThe non-inverting input of current comparison circuit 44 is in order to the receiving inductance electric current I _L, and inverting input is in order to receive the variable reference current signals I that is exported from circuit generating variable reference current 46 _VarOne input of AND logic lock 45 is in order to receiving switch-over control signal CS, and the anti-stop signal RI that exported in order to received current comparison circuit 44 of another input.The output of AND logic lock 45 is coupled to down side drive circuit 12L, with decision downside drive signal PL.

Particularly, the variable reference current signals I that exported of circuit generating variable reference current 46 _VarAdjust in response to electric current correction circuit 47.Electric current correction circuit 47 has a sample-and-hold circuit 48 and an auxiliary current comparison circuit 49.Sample-and-hold circuit 48 in response to anti-stop signal RI for inductive current I _LTake a sample.Be transformed into low level moment at anti-stop signal RI from high level, promptly make side switch SL enter not on-state to stop the moment of backward current, sample-and-hold circuit 48 is for the inductive current I of this moment _LTake a sample, as current sample signal SI.The non-inverting input of auxiliary current comparison circuit 49 is in order to received current sample signal SI, and inverting input is in order to receive fixed reference current source I _RefFor example, fixed reference current source I _RefMust be set at zero.Based on current sample signal SI and fixed reference current source I _RefBetween comparative result, auxiliary current comparison circuit 49 applies an electric current corrected signal CI to circuit generating variable reference current 46.

In response to electric current corrected signal CI, circuit generating variable reference current 46 is adjusted the variable reference current signals I that is exported _VarWhen current sample signal SI greater than fixed reference current source I _RefThe time, electric current corrected signal CI is a high level.That is, enter the moment of not on-state, inductive current I at side switch SL _LGreater than fixed reference current source I _RefIn other words, at inductive current I _LDirection do not take a turn for the worse as yet before, side switch SL too early enters not on-state.Therefore, circuit generating variable reference current 46 must make variable reference current signals I _VarReduce, the moment that makes side switch SL enter not on-state can be delayed generation.When current sample signal SI less than fixed reference current source I _RefThe time, electric current corrected signal CI is a low level.That is, enter the moment of not on-state, inductive current I at side switch SL _LLess than fixed reference current source I _RefIn other words, at inductive current I _LDirection taken a turn for the worse after, side switch SL just enters not on-state too late.Therefore, circuit generating variable reference current 46 must make variable reference current signals I _VarRaise, the moment that makes side switch SL enter not on-state can take place in advance.

Though the actual operational speed of current comparison circuit 44 is limited, and change, yet directly detect inductive current I according to electric current correction circuit 47 of the present invention along with integrated circuit technology and operating temperature _L, and based on inductive current I _LWith fixed reference current source I _RefBetween comparison and produce electric current corrected signal CI.Subsequently, in response to electric current corrected signal CI, circuit generating variable reference current 46 is able to revise automatically the variable reference current signals I that is produced _VarIn other words, revised variable reference current signals I _VarTake into account the time of delay that current comparison circuit 44 is caused, so can prevent the generation of backward current exactly according to backward current preventing circuit 43 of the present invention.

Fig. 5 shows the circuit diagram according to the backward current preventing circuit 53 of the present invention's second example.With reference to Fig. 5, backward current preventing circuit 53 has a voltage comparator circuit 54, an AND logic lock 55, a variable reference voltage generation circuit 56, a voltage modification circuit 57 and a fixed voltage reference V _RefThe non-inverting input of voltage comparator circuit 54 is in order to receive the voltage V at switching node SN place _SN, and inverting input is in order to receive the variable reference voltage signal V that is exported from variable reference voltage generation circuit 56 _VarOne input of AND logic lock 55 is in order to reception switch-over control signal CS, and another input is in order to receive the anti-stop signal RV that voltage comparator circuit 54 is exported.The output of AND logic lock 55 is coupled to down side drive circuit 12L, with decision downside drive signal PL.

Particularly, the variable reference voltage signal V that exported of variable reference voltage generation circuit 56 _VarAdjust in response to voltage modification circuit 57.Voltage modification circuit 57 has a sample-and-hold circuit 58 and a boost voltage comparison circuit 59.Sample-and-hold circuit 58 in response to anti-stop signal RV for the voltage V at switching node SN place _SNTake a sample.Be transformed into moment of high level at anti-stop signal RV from low level, promptly make side switch SL enter not on-state to stop the moment of backward current, sample-and-hold circuit 58 is for the voltage V at the switching node SN place of this moment _SNTake a sample, as voltage sample signal SV.The non-inverting input of boost voltage comparison circuit 59 is in order to reception voltage sample signal SV, and inverting input is in order to receive reference voltage source V _RefFor example, fixed voltage reference V _RefMust be set at zero.Based on voltage sample signal SV and fixed voltage reference V _RefBetween comparative result, boost voltage comparison circuit 59 applies a voltage corrected signal CV to variable reference voltage generation circuit 56.

In response to voltage corrected signal CV, variable reference voltage generation circuit 56 is adjusted the variable reference voltage signal V that is exported _VarWhen voltage sample signal SV greater than fixed voltage reference V _RefThe time, voltage corrected signal CV is a high level.That is, enter the moment of not on-state, the voltage V at switching node SN place at side switch SL _SNGreater than fixed voltage reference V _RefIn other words, at inductive current I _LDirection taken a turn for the worse after, side switch SL just enters not on-state too late.Therefore, variable reference voltage generation circuit 56 must make variable reference voltage signal V _VarReduce, the moment that makes side switch SL enter not on-state can take place in advance.When voltage sample signal SV less than fixed voltage reference V _RefThe time, voltage corrected signal CV is a low level.That is, enter the moment of not on-state, the voltage V at switching node SN place at side switch SL _SNLess than fixed voltage reference V _RefIn other words, at inductive current I _LDirection do not take a turn for the worse as yet before, side switch SL too early enters not on-state.Therefore, variable reference voltage generation circuit 56 must make variable reference voltage signal V _VarRaise, the moment that makes side switch SL enter not on-state can be delayed generation.

Though the actual operational speed of voltage comparator circuit 54 is limited, and change, yet directly detect the voltage V at switching node SN place according to voltage modification circuit 57 of the present invention along with integrated circuit technology and operating temperature _SN, and based on the voltage V at switching node SN place _SNWith fixed voltage reference V _RefBetween comparison and produce voltage corrected signal CV.Subsequently, in response to voltage corrected signal CV, variable reference voltage generation circuit 56 is able to revise automatically the variable reference voltage signal V that is produced _VarIn other words, revised variable reference voltage signal V _VarTake into account the time of delay that voltage comparator circuit 54 is caused, so can prevent the generation of backward current exactly according to backward current preventing circuit 53 of the present invention.

Only be illustrated though please note previous embodiment, can be applied to the synchronous switched voltage converter of pressure boosting type electric voltage converter and other kinds type according to backward current preventing circuit of the present invention for the buck electric pressure converter.

Fig. 6 shows the circuit diagram according to circuit generating variable reference current 46 of the present invention.With reference to Fig. 6, circuit generating variable reference current 46 has increase and decrease decision circuitry 60, a up-down counter 61 and a digital to analog converter 62.Increase and decrease decision circuitry 60 is in order to receive from electric current correction circuit 47 and the electric current corrected signal CI that comes, and judge based on electric current corrected signal CI should output increment signal US or decrement signals DS.

With reference to as described in Fig. 4, when the anti-stop signal RI that is produced when current comparison circuit 44 is converted to low level, the backward current incident promptly takes place as preamble, sample-and-hold circuit 48 is prevented from signal RI and starts with for inductive current I _LTake a sample.On the contrary, 60 of decision circuitry of increase and decrease are forced shut-down operation by low level anti-stop signal RI.By the time after anti-stop signal RI returned back to high level, increase and decrease decision circuitry 60 just was allowed to executable operations, should output increment signal US or decrement signals DS so that judge based on electric current corrected signal CI.Therefore, current comparison circuit 44 can use revised variable reference current signals I next time _VarDetect the generation of backward current more accurately.

Increase and decrease decision circuitry 60 is by an inverter 63 and two AND logic locks 64 and 65, and coupling forms as shown in Figure 6.When electric current corrected signal CI was high level, the decrement signals DS that is produced from increase and decrease decision circuitry 60 was a high level, made the count value Num of up-down counter 61 reduce.When electric current corrected signal CI was low level, the increment signal US that is produced from increase and decrease decision circuitry 60 was a high level, made the count value Num of up-down counter 61 increase.In response to the count value Num of up-down counter 61, digital to analog converter 62 is adjusted fixed reference current source I _RefAnd the corresponding variable reference current signals I of generation _VarCount value Num is bigger, pairing variable reference current signals I _VarAlso bigger.

Fig. 7 shows the circuit diagram according to variable reference voltage generation circuit 56 of the present invention.With reference to Fig. 7, variable reference voltage generation circuit 56 has increase and decrease decision circuitry 70, a up-down counter 71 and a digital to analog converter 72.Increase and decrease decision circuitry 70 is in order to receive from voltage modification circuit 57 and the voltage corrected signal CV that comes, and judge based on voltage corrected signal CV should output increment signal US or decrement signals DS.

With reference to as described in Fig. 5, when the anti-stop signal RV that is produced when voltage comparator circuit 54 is converted to high level, the backward current incident promptly takes place as preamble, sample-and-hold circuit 58 is prevented from signal RV and starts with the voltage V for switching node SN _SNTake a sample.On the contrary, 70 anti-stop signal RV by high level of increase and decrease decision circuitry force shut-down operation.When anti-by the time stop signal RV returned back to low level, increase and decrease decision circuitry 70 is executable operations, should output increment signal US or decrement signals DS so that judge based on electric current corrected signal CI.Therefore, voltage comparator circuit 54 can use revised variable reference voltage signal V next time _VarDetect the generation of backward current more accurately.

Increase and decrease decision circuitry 70 is by two inverters 73 and 76 and two AND logic locks 74 and 75, and coupling forms as shown in Figure 7.When voltage corrected signal CV was high level, the decrement signals DS that is produced from increase and decrease decision circuitry 70 was a high level, made the count value Num of up-down counter 71 reduce.When voltage corrected signal CV was low level, the increment signal US that is produced from increase and decrease decision circuitry 70 was a high level, made the count value Num of up-down counter 71 increase.In response to the count value Num of up-down counter 71, digital to analog converter 72 is adjusted fixed voltage reference V _RefAnd the corresponding variable reference voltage signal V of generation _VarCount value Num is bigger, pairing variable reference voltage signal V _VarAlso bigger.

Though the present invention was illustrated as illustration by preferred embodiment already, should be appreciated that to the invention is not restricted to the embodiment that this is disclosed.On the contrary, this invention is intended to contain tangible to those skilled in the art various modifications and similar configuration.Therefore, the scope of claim should be according to the widest annotation, and this type of is revised and similar configuration to contain all.

Claims (10)

1. backward current preventing circuit, be applied in the synchronous switch type electric voltage converter, this synchronous switched voltage converter has one first switch, a second switch and an inductance, three's coupled in common is switched node in one, make that when this first switch conduction and this not conducting of second switch, an inductive current of this inductance of flowing through increases, and when this first not conducting of switch and this second switch conducting, this inductive current then reduces, and this backward current preventing circuit comprises:

One fixed reference current source;

One correction circuit is in order to produce a corrected signal based on the comparison between this inductive current and this fixed reference current source;

One circuit generating variable reference current, in order to produce a variable reference current signals, it is adjusted according to this corrected signal; And

One comparison circuit in order to apply an anti-stop signal based on the comparison between this inductive current and this variable reference current signals to this second switch, makes this not conducting of second switch.

2. backward current preventing circuit as claimed in claim 1, wherein:

When this correction circuit detected this inductive current greater than this fixed reference current source, this circuit generating variable reference current reduced this variable reference current signals in response to this corrected signal.

3. backward current preventing circuit as claimed in claim 1, wherein:

When this correction circuit detected this inductive current less than this fixed reference current source, this circuit generating variable reference current improved this variable reference current signals in response to this corrected signal.

4. backward current preventing circuit as claimed in claim 1, wherein:

This correction circuit comprises:

One sample-and-hold circuit, in order to produce a current sample signal, it represents this inductive current when this comparison circuit applies this anti-stop signal, and

One auxiliary comparison circuit is in order to produce this corrected signal based on the comparison between this current sample signal and this fixed reference current source.

5. backward current preventing circuit as claimed in claim 1, wherein:

This circuit generating variable reference current comprises:

One decision circuitry, in order to produce an increment signal and a decrement signals in response to this corrected signal, wherein when this corrected signal was in one first level, this decision circuitry produced this increment signal, and when this corrected signal was in one second level, this decision circuitry produced this decrement signals;

One counter, in order to produce a count value, wherein when this counter received this increment signal, this count value increased, and when this counter received this decrement signals, this count value reduced; And

One digital to analog converter is in order to produce this variable reference current signals according to this count value.

6. backward current preventing circuit, be applied in the synchronous switch type electric voltage converter, this synchronous switched voltage converter has one first switch, a second switch and an inductance, three's coupled in common is switched node in one, make that when this first switch conduction and this not conducting of second switch, an inductive current of this inductance of flowing through increases, and when this first not conducting of switch and this second switch conducting, this inductive current then reduces, and this backward current preventing circuit comprises:

One fixed voltage reference;

One correction circuit is in order to based on a voltage of this switching node and the comparison between this fixed voltage reference and produce a corrected signal;

One variable reference voltage generation circuit, in order to produce a variable reference voltage signal, it is adjusted according to this corrected signal; And

One comparison circuit in order to apply an anti-stop signal to this second switch based on this voltage of this switching node and the comparison between this variable reference voltage signal, makes this not conducting of second switch.

7. backward current preventing circuit as claimed in claim 6, wherein:

This voltage that detects this switching node when this correction circuit is during greater than this fixed voltage reference, and this variable reference voltage generation circuit reduces this variable reference voltage signal in response to this corrected signal.

8. backward current preventing circuit as claimed in claim 6, wherein:

This voltage that detects this switching node when this correction circuit is during less than this fixed voltage reference, and this variable reference voltage generation circuit improves this variable reference voltage signal in response to this corrected signal.

9. backward current preventing circuit as claimed in claim 6, wherein:

This correction circuit comprises:

One sample-and-hold circuit, in order to produce a voltage sample signal, it represents this voltage of this switching node when this comparison circuit applies this anti-stop signal, and

One auxiliary comparison circuit is in order to produce this corrected signal based on the comparison between this voltage sample signal and this fixed voltage reference.

10. backward current preventing circuit as claimed in claim 6, wherein:

This variable reference voltage generation circuit comprises:

One decision circuitry, in order to produce an increment signal and a decrement signals in response to this corrected signal, wherein when this corrected signal was in one first level, this decision circuitry produced this increment signal, and when this corrected signal was in one second level, this decision circuitry produced this decrement signals;

One counter, in order to produce a count value, wherein when this counter received this increment signal, this count value increased, and when this counter received this decrement signals, this count value reduced; And

One digital to analog converter is in order to produce this variable reference voltage signal according to this count value.

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