CN101739054A - Active current limiting circuit and power supply regulator using same - Google Patents

Abstract

The invention mainly discloses a current limiting circuit, namely, an over-current protection (OCP) circuit and a power supply regulator using the same, and aims to protect a power component and a load circuit. The traditional current limiting circuit converts detected overcurrent to voltage by using a resistor and a field effect transistor, and then opens a P-type transistor, so that a charging current clamps grid voltage of a power transistor to fulfill the aim of limiting the current. However, the process changes of the resistor and the field effect transistor and the temperature characteristic per se of the component often cause considerable error of current limiting. Therefore, the accuracy of the current limiting circuit is improved in a current comparison mode.

Description

Active mode current restricting circuits and use the power regulator of this circuit

Technical field

The present invention is for a kind of current limit circuit and use the power regulator of this circuit, in particular to a kind of active mode current restricting circuits and use the power regulator of this circuit.

Background technology

Generally speaking; in the dc voltage stabilizer application of (being called power regulator power regulator again); there are some holding circuits in the capital; and these holding circuits have overvoltage protection, over-temperature protection and overcurrent protection, and wherein overcurrent protection can utilize a current limit circuit (current limiting circuit) to realize.The most normal electric current that utilizes the detection power transistor to be flow through of mechanism of electric current restriction; utilize a resistance that detected current conversion is become voltage; and this voltage is again with a P transistor npn npn conducting; make a charging current that the grid voltage of power transistor is lived to strangulation; so can limit the load current of dc voltage changer, reach the protection of excess current.

Traditional method such as Fig. 1 and shown in Figure 2.Fig. 1 is a U.S. Patent number 7,362, the prior art of 080 current limit circuit, the resistance R in (figure one) _S100, power transistor M is flow through in detection ₁₀₁Electric current, and this current conversion become voltage, come oxide-semiconductor control transistors M ₁₀₂When excess current takes place, R _S100On pressure drop enough open M ₁₀₂, have a charging current with M this moment ₁₀₁Grid voltage (VEO) live to strangulation, so just reached the purpose of current limliting.But, the disadvantage of the practice like this can increase the minimum voltage difference (dropout voltage) of Voltagre regulator input-output voltage exactly.

Fig. 2 is a U.S. Patent number 7,362,080 propose the improvement after framework, then be to utilize transistor M _P203Come detection power transistor M _P201Electric current, when the situation of excess current takes place when, resistance R _S201On pressure drop be enough to allow transistor M _P204Conducting, have a charging current with this MP this moment ₂₀₁Grid voltage live to strangulation, reach the effect of current limliting in the same manner.But, this resistance R _S201To the error that technology and temperature variations caused, will directly influence the precision of current limit circuit.

In addition, Fig. 1 and Fig. 2 prior art all use resistance, if electric current will be limited in lower value, certainly will will increase resistance value, so will increase area of chip.Comprehensive above-mentioned explanation, the precision of current limliting with the efficient use of chip area (areaefficiency), 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 current limit circuit and uses the power regulator of this circuit, in particular to a kind of active mode current restricting circuits and use the power regulator of this circuit, it can improve in the prior art for different process and the big present situation of temperature variation.

Summary of the invention

Power regulator and method of operating thereof that technical matters to be solved by this invention is to provide a kind of active mode current restricting circuits and uses this circuit, it utilizes driving component to form feedback circuit, and then the purpose of low technology of the high precision of reaching and temperature variations.

Preferable, the present invention includes a kind of current limiting method in power regulator, it comprises at least:

(a) beginning;

(b) power regulator output one fixed voltage and power transistor under normal voltage stabilizing state provides an electric current to load;

(c) sense power the transistor output current excessive or electric current that is short-circuited whether if not, is got back to previous step (b); If arrive next step (d);

(d) start active overcurrent limiting circuit; And

(e) whether over-current condition removes, and if not, gets back to previous step (d); If get back to (b).

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 comprises a plurality of transistors and does not comprise resistance.

Preferable, the present invention addresses a kind of current limit circuit in power regulator, and it comprises at least:

One P type power transistor, its source-coupled is to this first voltage source;

One direct current current mirror, it comprises a pair of N transistor npn npn, and this joins to grid to N transistor npn npn grid, and wherein a N transistor npn npn grid and drain electrode are joined;

One direct current current source, wherein this DC current source export a predetermined value direction over the ground electric current and be connected to one first end points mutually with the output of DC current mirror;

One the one P transistor npn npn, its source-coupled are to this first voltage source, and its gate coupled is to this first end points, and its drain coupled is to the grid of this P type power transistor; And

One the 2nd P transistor npn npn, its source-coupled are to this first voltage source, and its gate coupled is to the grid of this P type power transistor, and its drain coupled is to the input end of this DC current mirror.

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 for being used for method flow diagram of the present invention; And

Fig. 4 is the example schematic that is used for current limit circuit of the present invention; And

Fig. 5 is the example schematic that is used for power regulator of the present invention.

Wherein Reference numeral is:

I _REFElectric current

R _S100R _S202Resistance

M ₁₀₁M _P201M ₄₀₁Power transistor

M ₁₀₂MP ₂₀₁M _P203M _P204Transistor

M ₄₀₂～M ₄₀₆Transistor

501 P type power transistors 501

502 feedback circuits

503 differential amplifiers

504 holding circuits

Embodiment

Please refer to Fig. 3, Fig. 3 is a kind of current limiting method in power regulator of the present invention, and it comprises at least:

(a) beginning;

(b) power regulator output one fixed voltage and power transistor under normal voltage stabilizing state provides an electric current to load;

(c) sense power the transistor output current excessive or electric current that is short-circuited whether if not, is got back to previous step (b); If arrive next step (d);

(d) start active overcurrent limiting circuit; And

(e) whether over-current condition removes, and if not, gets back to previous step (d); If get back to (b).

Please refer to Fig. 4, Fig. 4 is a preferred embodiment of the present invention, transistor M ₄₀₁Be a power transistor, transistor M ₄₀₂～M ₄₀₆Constitute a current limit circuit, wherein transistor M ₄₀₅Electric current I _REF, provided by a generating circuit from reference voltage.Its operating principle is as follows: transistor M ₄₀₂Detection power transistor M ₄₀₁On electric current, take place when output load current has the situation of excess current, this moment transistor M ₄₀₂The electric current that detects will rise, and electric current is through a current mirror M ₄₀₃With M ₄₀₄, then with transistor M ₄₀₅Electric current I _REFCompare, the voltage that is produced is with turn-on transistor M ₄₀₆, and produce a charging current with M ₄₀₁Grid voltage (VEO) live to strangulation, so just reached the purpose of restriction electric current.Current limit circuit of the present invention does not have any resistance, thus be called again the active mode current restricting circuits (Active Current LimitingCircuit, ACLC), because do not use resistance, so promoted the utilization rate of chip area yet.

Transistor M ₄₀₅Electric current I _REF, being provided by generating circuit from reference voltage, we can design this electric current I _REF, improve electric current I _REFTo the resistivity of technology and temperature variation, cut-off current precision of the present invention like this also will promote widely.

Fig. 5 is a kind of power regulator of the present invention, and it comprises at least:

One P type power transistor 501, 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 502, it produces a feedback signal via the dividing potential drop to this second voltage;

One differential amplifier 503, its output is coupled to the grid of this power transistor 501, 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 504, this holding circuit 504 are to limit one first electric current of this P type power transistor of flowing through by configuration, and when this first electric current surpasses a predetermined value, improve the voltage of the grid of this this power transistor 501; Wherein, this holding circuit 504 comprises a plurality of transistors and does not comprise resistance.

Wherein, preferable, this feedback circuit 502 further comprises two series resistors.

Wherein, preferable, this holding circuit 504 further comprises the M among a direct current current source such as Fig. 4 ₄₀₅

Wherein, preferable, this holding circuit 504 further comprises the M among a direct current current mirror such as Fig. 4 _403～404

Wherein, preferable, this holding circuit 504 further comprises:

One direct current current mirror, it comprises the M among a pair of N transistor npn npn such as Fig. 4 _403～404, this joins to grid to N transistor npn npn grid, and wherein a N transistor npn npn grid and drain electrode are joined;

M among one direct current current source such as Fig. 4 ₄₀₅, wherein this DC current source export a predetermined value direction over the ground electric current and be connected to one first end points mutually with the output of DC current mirror;

M among one the one P transistor npn npn such as Fig. 4 ₄₀₆, its source-coupled is to this first voltage source, and its gate coupled is to this first end points, and its drain coupled is to the output of this differential amplifier; And

M among one the 2nd P transistor npn npn such as Fig. 4 ₄₀₂, its source-coupled is to this first voltage source, and its gate coupled is to the output of this differential amplifier, and its drain coupled is to the input end of this DC current mirror.

Wherein, preferable, this DC current source is formed by at least one P transistor npn npn.

Wherein, preferable, this DC current mirror is the cascade that splices (cascode) current mirror.

Wherein, preferable, the DC current of this DC current source is produced by an energy gap reference circuit (bandgapreference).

Skilled personnel can understand this invention and also can be applicable to power regulator, do not repeat them here.

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 (15)

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 comprises a plurality of transistors and does not comprise resistance.

2. power regulator as claimed in claim 1 is characterized in that, this feedback circuit further comprises two series resistors.

3. power regulator as claimed in claim 1 is characterized in that, this holding circuit further comprises a direct current current source.

4. power regulator as claimed in claim 1 is characterized in that, this holding circuit further comprises a direct current current mirror.

5. power regulator as claimed in claim 1 is characterized in that, this holding circuit further comprises:

One direct current current mirror, it comprises a pair of N transistor npn npn, and this joins to grid to N transistor npn npn grid, and wherein a N transistor npn npn grid and drain electrode are joined;

One direct current current source, wherein this DC current source export a predetermined value direction over the ground electric current and be connected to one first end points mutually with the output of DC current mirror;

One the one P transistor npn npn, its source-coupled are to this first voltage source, and its gate coupled is to this first end points, and its drain coupled is to the output of this differential amplifier; And

One the 2nd P transistor npn npn, its source-coupled are to this first voltage source, and its gate coupled is to the output of this differential amplifier, and its drain coupled is to the input end of this DC current mirror.

6. power regulator as claimed in claim 5 is characterized in that, this DC current source is formed by at least one P transistor npn npn.

7. power regulator as claimed in claim 5 is characterized in that, this DC current mirror is the common-source common-gate current mirror that splices.

8. power regulator as claimed in claim 5 is characterized in that, the DC current of this DC current source is produced by an energy gap reference circuit.

9. the current limit circuit in power regulator is characterized in that, comprises at least:

One P type power transistor, its source-coupled to one first voltage source;

One direct current current mirror, it comprises a pair of N transistor npn npn, and this joins to grid to N transistor npn npn grid, and wherein a N transistor npn npn grid and drain electrode are joined;

One direct current current source, wherein this DC current source export a predetermined value direction over the ground electric current and be connected to one first end points mutually with the output of DC current mirror;

One the one P transistor npn npn, its source-coupled are to this first voltage source, and its gate coupled is to this first end points, and its drain coupled is to the grid of this P type power transistor; And

One the 2nd P transistor npn npn, its source-coupled are to this first voltage source, and its gate coupled is to the grid of this P type power transistor, and its drain coupled is to the input end of this DC current mirror.

10. current limit circuit as claimed in claim 9 is characterized in that, this DC current source is formed by at least one P transistor npn npn.

11. current limit circuit as claimed in claim 9 is characterized in that, this DC current mirror is the cascode that splices.

12. current limit circuit as claimed in claim 9 is characterized in that, the DC current of this DC current source is produced by an energy gap reference circuit bandgap reference.

13. current limit circuit as claimed in claim 9 is characterized in that, this current limit circuit is low technology variation.

14. current limit circuit as claimed in claim 9 is characterized in that, this current limit circuit is the low temperature variation.

15. the current limiting method in power regulator is characterized in that, comprises at least:

(a) beginning;

(b) power regulator output one fixed voltage and power transistor under normal voltage stabilizing state provides an electric current to load;

(c) sense power the transistor output current excessive or electric current that is short-circuited whether if not, is got back to previous step (b); If arrive next step (d);

(d) start active overcurrent limiting circuit; And

(e) whether over-current condition removes, and if not, gets back to previous step (d); If get back to (b).

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