CN101739053A - Power supply regulator with active foldback current limiting circuit - Google Patents

Abstract

The invention mainly provides a power supply regulator, comprising a P type power transistor, a feedback circuit, a differential amplifier, a protection circuit containing an N type transistor current mirror and an active foldback current limiting circuit without containing a resistor. When the P type power transistor undergoes short-circuit current, the active foldback current limiting circuit increases the current at the output end of the direct current mirror in the protection circuit to restrict the current flowing through the P type power transistor. The invention also discloses the active foldback current limiting circuit which can increase the current at the input end of the direct current source in the protection circuit to achieve the same aim.

Description

A kind of power regulator with active foldback current limiting circuit

Technical field

The present invention is a kind of foldback restricting circuits and the power regulator that uses this circuit, in particular to a kind of power regulator that uses the active foldback restricting circuits.

Background technology

Traditional method as shown in Figures 1 and 2.

Generally speaking; in the application of dc voltage stabilizer (power regulator); there are some holding circuits in the capital; and these holding circuits have overvoltage protection, over-temperature protection and short-circuit current protection, and wherein the short-circuit current protection can utilize a foldback current limiting circuit (foldback current limiting circuit) to realize.The mechanism of foldback electric current restriction, the most normal size of utilizing interim change detection electric current reaches less restriction electric current.

Fig. 1 and Fig. 2 are the prior art of foldback current limiting circuit, and Fig. 1 utilizes transistor M ₁₀₂Come detection power transistor M ₁₀₁Electric current, when the situation of excess current takes place when, resistance R _S101On pressure drop be enough to allow transistor M ₁₀₅Conducting, have a charging current with M this moment ₁₀₁Grid voltage V _EO1Live to strangulation, reach initial current limliting purpose.

Transistor M in Fig. 1 ₁₀₆, with resistance R _S102Be foldback current limiting circuit, purpose is the short-circuit current protection.When the situation of output voltage short circuit takes place when, transistor M ₁₀₆To close, flow through resistance R this moment _S101Electric current increase, so transistor M ₁₀₅Charging current also increase M like this thereupon ₁₀₁Grid voltage, will be stayed in higher voltage quasi position by strangulation, allow short-circuit current be limited in lower state.

In Fig. 2, as transistor M ₂₀₂Detect power transistor M ₂₀₁When having excess current to take place, resistance R ₂₀₃On pressure drop enough with transistor M ₂₂₀Conducting utilizes resistance R again ₂₀₅With M ₂₂₀Current conversion become voltage, and allow transistor M ₂₀₃Conducting produces a charging current with M ₂₀₁Grid voltage V _EO2Live to strangulation, same as in figure 1ly reach initial current limliting purpose.When the situation of output voltage short circuit takes place when, transistor M ₂₂₂Close, cause M ₂₂₃Conducting, M ₂₂₁Close, at this moment resistance R ₂₀₄To promote transistor M ₂₂₀Grid voltage, finally will increase transistor M ₂₀₃Charging current, allow short-circuit current be limited in lower state.

But, the resistance R among Fig. 1 and Fig. 2 _S101, R ₂₀₃, R ₂₀₅Also has the transistor M among Fig. 2 ₂₂₀, can be subjected to technology and variation of temperature, and directly influence the precision of short-circuit current restricting circuits.In addition, prior art all uses resistance, if electric current will be limited in lower value, certainly will will increase resistance value.In Fig. 1, also need consider transistor M ₁₀₆If the conduction impedance that is produced is transistor M ₁₀₆Conduction impedance excessive, then may have influence on the regular event of Voltagre regulator.Comprehensive above-mentioned explanation, the precision of current limliting with the efficient use of chip area (area efficiency), is emphasis of the present invention under raising different process and the temperature variation.

Therefore, the inventor of this case works out a kind of foldback current limiting circuit, in particular to a kind of power regulator that uses active foldback current limiting circuit, it can improve the big present situation of precision difference of current limliting under different process of the prior art and the temperature variation.

Summary of the invention

The invention relates to a kind of power regulator, it is to utilize an active foldback current limiting circuit, and then the purpose of the high precision voltage sensing of reaching.

Preferable, this power regulator, it comprises at least:

One P type power transistor, its source electrode receive unadjusted first voltage source and produce second voltage that is conditioned according to a control signal in drain electrode;

One feedback circuit, it produces a feedback signal via the dividing potential drop to this second voltage;

One differential amplifier, its output is coupled to the grid of this power transistor, and its positive input terminal is coupled to this feedback signal, and its negative input end is coupled to a reference voltage;

One holding circuit, this holding circuit are to limit first electric current of this P type power transistor of flowing through by configuration, and when first electric current surpasses a predetermined value, improve the voltage of the grid of this this power transistor; Wherein, this holding circuit further comprises one first DC current mirror, and this first DC current mirror comprises a pair of N transistor npn npn, and this joins to grid to N transistor npn npn grid, wherein a N transistor npn npn grid and drain electrode are joined and are that input end, the drain electrode of another N transistor npn npn are output terminal; And

One active foldback current limiting circuit, it is in order to restriction this first electric current of this P type power transistor of flowing through, and when this P type power transistor is short-circuited electric current, increases the electric current of this DC current mirror output terminal in this holding circuit.

Preferable, this power regulator, it comprises at least:

One P type power transistor, its source electrode receive unadjusted first voltage source and produce second voltage that is conditioned according to a control signal in drain electrode;

One feedback circuit, it produces a feedback signal via the dividing potential drop to this second voltage;

One differential amplifier, its output is coupled to the grid of this power transistor, and its positive input terminal is coupled to this feedback signal, and its negative input end is coupled to a reference voltage;

One holding circuit, this holding circuit are to limit first electric current of this P type power transistor of flowing through by configuration, and when first electric current surpasses a predetermined value, improve the voltage of the grid of this this power transistor; Wherein, this holding circuit further comprises one first DC current mirror, and this first DC current mirror comprises a pair of N transistor npn npn, and this joins to grid to N transistor npn npn grid, wherein a N transistor npn npn grid and drain electrode are joined and are that input end, the drain electrode of another N transistor npn npn are output terminal; And

One active foldback current limiting circuit, it is in order to restriction this first electric current of this P type power transistor of flowing through, and when this P type power transistor is short-circuited electric current, increases the electric current of this DC current mirror input end in this holding circuit.

For further specifying structure purpose of the present invention and effect, cooperate the icon example to describe in detail now as after.

Description of drawings

Fig. 1 is the example schematic of prior art;

Fig. 2 is another example schematic of prior art;

Fig. 3 is an example schematic that is used for active foldback current limiting circuit of the present invention;

Fig. 4～Fig. 5 is the circuit diagram that is used for active foldback current limiting circuit of the present invention;

Fig. 6 is another example schematic that is used for active foldback current limiting circuit of the present invention; And

Fig. 7～Fig. 8 is another circuit diagram that is used for active foldback current limiting circuit of the present invention.

[primary clustering symbol description]

M ₁₀₁Power transistor

M ₁₀₂M ₁₀₅M ₁₀₆Transistor

R _S101R _S102Resistance

M ₂₀₁Power transistor

M ₂₀₁M ₂₀₂M ₂₀₃M ₂₂₀M ₂₂₁M ₂₂₃Transistor

R ₂₀₃R ₂₀₄R ₂₀₅Resistance

V _EO1V _EO2Voltage

300 active foldback current limiting circuits

M ₃₀₁Power transistor

M ₃₀₃M ₃₀₄Transistor

M ₃₀₂M ₃₀₅M ₃₀₆Transistor

The OP3 differential amplifier

The RFB3 feedback circuit

I _LIM400～I _LIM403Signal

M ₄₀₇～M ₄₁₈Transistor

M ₅₀₈, M ₅₁₅With M ₅₂₂Transistor

The OP6 differential amplifier

The RFB6 feedback circuit

M ₆₀₁Power transistor

M ₆₀₃M ₆₀₄Transistor

M ₆₀₂M ₆₀₅M ₆₀₆Transistor

600 active foldback current limiting circuits

I _LIM701～703Output signal

M _707～718Transistor

I _LIM801～803Output signal

M _807～827Transistor

Embodiment

Generation for fear of short-circuit current, the present invention proposes an active foldback current limiting circuit, and (Active Foldback Current Limiting Circuit AFCLC), is limited in extremely low state with short-circuit current, and reduce the power consumption of this moment, avoid damaging packing.

Fig. 3 is active foldback current limiting circuit and the power regulator synoptic diagram that uses this active foldback current limiting circuit, and this power regulator comprises: a P type power transistor M ₃₀₁One feedback circuit RFB3; One differential amplifier OP3; One comprises N transistor npn npn current mirror (by transistor M ₃₀₃, M ₃₀₄Form) holding circuit (comprise transistor M ₃₀₂, M ₃₀₅, M ₃₀₆); And an active foldback current limiting circuit 300 that does not comprise resistance, it is in order to restriction this P type power transistor M that flows through ₃₀₁Electric current, and as this P type power transistor M ₃₀₁During short circuit, increase in this holding circuit transistor M in this DC current source ₃₀₄The electric current of output terminal.

Fig. 4 is for being used in the N-1 type active foldback current limiting circuit of this circuit 300 of Fig. 3, transistor M ₄₀₇～M ₄₁₈Constitute a foldback mechanism, wherein transistor M ₄₀₇, M ₄₁₁, M ₄₁₅Be certain DC current source, transistor M ₄₀₉, M ₄₁₃, M ₄₁₇Be the size of decision short circuit current limitation, and transistor M ₄₁₀Grid receive feedback voltage V _FB3, transistor M ₄₁₄, M ₄₁₈Then receive the output terminal of Voltagre regulator, output signal I _LIM401～I _LIM403Then receive the grid of transistor M306 among Fig. 3.Operating principle is as follows: the action of at the beginning current limliting is, takes place when output load current has the situation of excess current, makes transistor M ₃₀₆Conducting, and produce a charging current with M ₃₀₁Grid voltage live to strangulation, so finished initial electric current restriction (I _LIM400), this moment transistor M ₄₁₀, M ₄₁₄With M ₄₁₈All conductings.Heal greatly when output load current, then output voltage will descend, so feedback voltage V _FB3Also can descend, work as feedback voltage V _FB3Be lower than transistor M ₄₁₀Limit voltage (Threshold) time, transistor M ₄₁₀Close, at this moment transistor M ₄₀₉Can be to transistor M ₃₀₆Grid discharge, so power transistor M ₃₀₁Grid will be clamped at higher voltage quasi position, so reached the foldback electric current restriction (I of phase one _LIM401).In like manner, when output load current continuation increase, output voltage also continues to descend, if suitably design transistor M ₄₁₄With M ₄₁₈Required minimum forward voltage, just M ₄₁₄Minimum forward voltage greater than M ₄₁₈Minimum forward voltage.So transistor M ₄₁₄Will close earlier, and transistor M ₄₁₃Can increase transistor M ₃₀₆So the discharge current of grid is power transistor M ₃₀₁Grid voltage, will be clamped at the voltage quasi position higher than the phase one, so finished the foldback electric current restriction (I of subordinate phase _LIM402).At last, load current is increased to and allows output voltage enough close transistor M ₄₁₈, this moment transistor M ₄₁₇Again increase transistor M ₃₀₆The discharge current of grid is finished the foldback electric current restriction (I of phase III then _LIM403).

In like manner, Fig. 5 is for being used in the P-2 type active foldback current limiting circuit of this circuit 300 of Fig. 3.When initial current limliting takes place, transistor M ₅₀₈, M ₅₁₅With M ₅₂₂All conductings are when stage foldback mechanism starts transistor M ₅₀₈, M ₅₁₅With M ₅₂₂Can close in regular turn, so power transistor M ₃₀₁Grid voltage, will be clamped on the higher voltage level.

Fig. 6 is active foldback current limiting circuit and the power regulator synoptic diagram that uses this active foldback current limiting circuit, and this power regulator comprises: a P type power transistor M ₆₀₁One feedback circuit RFB6; One differential amplifier OP6; One comprises N transistor npn npn current mirror (by transistor M ₆₀₃, M ₆₀₄Form) holding circuit (further comprise transistor M ₆₀₂, M ₆₀₅, M ₆₀₆); And an active foldback current limiting circuit 600 that does not comprise resistance, it is in order to restriction this P type power transistor M that flows through ₆₀₁Electric current, and as this P type power transistor M ₆₀₁During short circuit, increase in this holding circuit transistor M in this DC current source ₆₀₃The electric current of input end.

Fig. 3 and Fig. 6 be different be in, this active foldback current limiting circuit 300 and this active foldback current limiting circuit 600 are connected to output terminal and this DC current mirror input end of this DC current mirror respectively.

Fig. 7 is for being used in the N-2 type active foldback current limiting circuit of this circuit 600 among Fig. 6, transistor M _707～718Constitute a foldback mechanism, wherein transistor M ₇₀₇, M ₇₁₁, M ₇₁₅Be certain electric current, transistor M ₇₀₉, M ₇₁₃, M ₇₁₇Be the size of decision short circuit current limitation, and the grid of transistor M710 is received feedback voltage V _FB6, transistor M _714/718Then receive the output terminal of Voltagre regulator, output signal I _LIM701～703Then receive transistor M among Fig. 6 ₆₀₂, M ₆₀₃Drain electrode.

Its operating principle is as follows: the action of at the beginning current limliting is identical with Fig. 6, when output load current has the situation generation of excess current, makes transistor M ₆₀₆Conducting, and produce a charging current with M ₆₀₁Grid voltage live to strangulation, so finished initial electric current restriction (I _LIM700), this moment transistor M ₇₁₀, M ₇₁₄With M ₇₁₈All conductings.Heal greatly when output load current, then output voltage will descend, so feedback voltage V _FB6Also can descend, work as feedback voltage V _FB6Be lower than transistor M ₇₁₀Limit voltage the time, transistor M ₇₁₀Close, flow through transistor M this moment ₆₀₃Electric current, by I originally ₂-(I ₉+ I ₁₃+ I ₁₇) increase to I ₂'-(I ₁₃+ I ₁₇), make transistor M ₆₀₆Grid voltage descend manyly, and increased power transistor M ₆₀₁The charging current of grid, and power transistor M ₆₀₁Grid will be clamped at higher voltage quasi position, so reached the foldback electric current restriction (I of phase one _LIM701).In like manner, when output load current continuation increase, output voltage also continues to descend, if suitably design transistor M ₇₁₄With M ₇₁₈Required minimum forward voltage, just M ₇₁₄Minimum forward voltage greater than M ₇₁₈Required minimum forward voltage.So transistor M ₇₁₄Will close earlier, flow through transistor M this moment ₆₀₃Electric current, by the I of foldback phase one ₂'-(I ₁₃+ I ₁₇) increase to I ₂" I ₁₇, and increased power transistor M ₆₀₁The charging current of grid, the foldback electric current of so just having finished subordinate phase limits (I _LIM702).At last, load current is increased to and allows output voltage enough close transistor M ₇₁₈, flow through transistor M this moment ₆₀₃Electric current be I ₂' ", again increase power transistor M ₆₀₁The charging current of grid is finished the foldback electric current restriction (I of phase III then _LIM703).Because the foldback current limliting of phase III is by electric current I ₂' " determine, so the error of a foldback current limliting residual electricity stream I just ₂' ", as long as transistor M ₆₀₂Detected electric current is enough accurate, and that foldback current limliting error will reduce greatly.

In like manner, Fig. 8 is P-1 type active foldback current limiting circuit figure, and the operating principle of its P-1 type is as follows: transistor M _807～827Constitute a foldback mechanism, wherein transistor M ₈₀₇, M ₈₁₄, M ₈₂₁, M ₈₀₉, M ₈₁₆With M ₈₂₃Be a constant current source, transistor M _812/813, M _819/820, M _826/827Drain electrode, receive transistor M respectively ₈₀₈, M ₈₁₅With M ₈₂₂Grid, and transistor M _810/811Grid receive feedback voltage V FB6, transistor M _817/818With M _824/825Grid then be connected to the output terminal of Voltagre regulator, and output signal I _LIM801～803Then receive transistor M among Fig. 6 _602/603Drain electrode.Initial current limliting action diagram 6 is identical with Fig. 3, takes place when output load current has the situation of excess current, makes transistor M ₆₀₆Conducting, and produce a charging current with power transistor M ₆₀₁Grid voltage live to strangulation, so finished initial electric current restriction (I _LIM800), this moment transistor M ₆₀₈, M ₆₁₅With M ₆₂₂Can't conducting.When the situation that excess current takes place, just feedback voltage V FB6 is lower than transistor M ₈₁₁Limit voltage the time, transistor M _812/813Drain voltage will be zero, so transistor M ₈₀₈Conducting, an and charging current is provided makes power transistor M ₆₀₁Grid voltage be clamped at higher voltage, so finished the foldback electric current limit (I of phase one _LIM801), and repeat such operation principles repeatedly, just can finish the restriction of active foldback electric current.

Four kinds of disclosed active foldback current limiting circuits also can be alternately or are applied to simultaneously at same power regulator, and those of ordinary skill in the art do not repeat them here when understanding.

Though the present invention discloses as above with preferred embodiment; right its is not in order to limit the present invention; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.

Claims (18)

1. a power regulator is characterized in that, comprises at least:

One P type power transistor, its source electrode receive unadjusted first voltage source and produce second voltage that is conditioned according to a control signal in drain electrode;

One feedback circuit, it produces a feedback signal via the dividing potential drop to this second voltage;

One differential amplifier, its output is coupled to the grid of this power transistor, and its positive input terminal is coupled to this feedback signal, and its negative input end is coupled to a reference voltage;

One holding circuit, this holding circuit are to limit first electric current of this P type power transistor of flowing through by configuration, and when first electric current surpasses a predetermined value, improve the voltage of the grid of this this power transistor; Wherein, this holding circuit further comprises one first DC current mirror, and this first DC current mirror comprises a pair of N transistor npn npn, and this joins to grid to N transistor npn npn grid, wherein a N transistor npn npn grid and drain electrode are joined and are that input end, the drain electrode of another N transistor npn npn are output terminal; And

One active foldback current limiting circuit, it is in order to restriction this first electric current of this P type power transistor of flowing through, and when this P type power transistor is short-circuited electric current, increases the electric current of this DC current mirror output terminal in this holding circuit.

2. power regulator as claimed in claim 1 is characterized in that, active foldback current limiting circuit comprise at least:

The current source of group more than one, and this current source is formed by the P transistor npn npn;

The N transistor npn npn current mirror of group more than one, its input of the current mirror of these many groups is connected to the current source of these many groups respectively, and its output is connected to the output of this first DC current mirror; And

The N transistor npn npn switch of group more than one, it is in order to the whether conducting of N transistor npn npn current mirrors of controlling these many groups.

3. power regulator as claimed in claim 1 is characterized in that, active foldback current limiting circuit comprise at least:

The current source of group more than one, and this current source is formed by the P transistor npn npn;

The reverser of group more than one, the source electrode of its P transistor npn npn of reverser of these many groups respectively by these current source supplying electric currents of organizing more; And

The P transistor npn npn switch of group more than one, supplying electric current is to the output of this first DC current mirror in order to P transistor npn npn current sources of controlling these many groups for it, and its gate coupled is in the output of the reversers of these many groups; Wherein, its output of P transistor npn npn current mirror of these many groups is coupled in the output of this first DC current mirror.

4. power regulator as claimed in claim 2 is characterized in that, the drain electrode that is coupled in this P type power transistor of N transistor npn npn switch of active foldback current limiting circuit.

5. power regulator as claimed in claim 2 is characterized in that, the output that is coupled in this feedback circuit of N transistor npn npn switch of active foldback current limiting circuit.

6. power regulator as claimed in claim 2 is characterized in that, its limit voltage of N transistor npn npn switch of active foldback current limiting circuit according to the required of the short-circuit current of this second voltage and this power transistor and set.

7. power regulator as claimed in claim 3 is characterized in that, the input end of reverser of active foldback current limiting circuit be coupled in the drain electrode of this P type power transistor.

8. power regulator as claimed in claim 3 is characterized in that, the input end of reverser of active foldback current limiting circuit be coupled in the output of this feedback circuit.

9. power regulator as claimed in claim 3 is characterized in that, the reverser of active foldback current limiting circuit in its limit voltage of N transistor npn npn according to the required of the short-circuit current of this second voltage and this power transistor and set.

10. a power regulator is characterized in that, comprises at least:

One P type power transistor, its source electrode receive unadjusted first voltage source and produce second voltage that is conditioned according to a control signal in drain electrode;

One feedback circuit, it produces a feedback signal via the dividing potential drop to this second voltage;

One differential amplifier, its output is coupled to the grid of this power transistor, and its positive input terminal is coupled to this feedback signal, and its negative input end is coupled to a reference voltage;

One holding circuit, this holding circuit are to limit first electric current of this P type power transistor of flowing through by configuration, and when first electric current surpasses a predetermined value, improve the voltage of the grid of this this power transistor; Wherein, this holding circuit further comprises one first DC current mirror, and this first DC current mirror comprises a pair of N transistor npn npn, and this joins to grid to N transistor npn npn grid, wherein a N transistor npn npn grid and drain electrode are joined and are that input end, the drain electrode of another N transistor npn npn are output terminal; And

One active foldback current limiting circuit, it is in order to restriction this first electric current of this P type power transistor of flowing through, and when this P type power transistor is short-circuited electric current, increases the electric current of this DC current source input mirror in this holding circuit.

11. power regulator as claimed in claim 10 is characterized in that, this active foldback current limiting circuit comprises at least:

The current source of group more than one, and this current source is formed by the P transistor npn npn;

The N transistor npn npn current mirror of group more than one, its input of the current mirror of these many groups is connected to the current source of these many groups respectively, and its output is connected to the output of this first DC current mirror; And

The N transistor npn npn switch of group more than one, it is in order to the source electrode of the output terminal of the N transistor npn npn current mirrors of controlling these many groups ground connection whether.

12. power regulator as claimed in claim 10 is characterized in that, this active foldback current limiting circuit comprises at least:

The current source of group more than one, and this current source is formed by the P transistor npn npn;

First reverser of group more than one, the source electrode of its P transistor npn npn of first reverser of these many groups respectively by these current source supplying electric currents of organizing more;

Second reverser of group more than one, its input end of second reverser of these many groups is coupled respectively to an output terminal of first reverser of these many groups; And

The P transistor npn npn switch of group more than one, supplying electric current is to the output of this first current mirror in order to P transistor npn npn current mirrors of controlling these many groups for it, and its gate coupled is in the output of second reversers of these many groups; Wherein, its output of P transistor npn npn current mirror of these many groups is coupled in the output of this first current mirror.

13. power regulator as claimed in claim 11 is characterized in that, one of the N transistor npn npn switch of this active foldback current limiting circuit is coupled in the drain electrode of this P type power transistor.

14. power regulator as claimed in claim 11 is characterized in that, one of the N transistor npn npn switch of this active foldback current limiting circuit is coupled in the output of this feedback circuit.

15. power regulator as claimed in claim 11 is characterized in that, its limit voltage of N transistor npn npn switch of this active foldback current limiting circuit is set according to the required of this second voltage and short-circuit current.

16. power regulator as claimed in claim 12 is characterized in that, an input end of first reverser of this active foldback current limiting circuit is coupled in the drain electrode of this P type power transistor.

17. power regulator as claimed in claim 12 is characterized in that, an input end of first reverser of this active foldback current limiting circuit is coupled in the output of this feedback circuit.

18. power regulator as claimed in claim 12 is characterized in that, its limit voltage of N transistor npn npn of first reverser of this active foldback current limiting circuit is set according to the required of this second voltage and short-circuit current.

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