CN101762734A

CN101762734A - Output voltage detection circuit and switching power supply

Info

Publication number: CN101762734A
Application number: CN200810184922A
Authority: CN
Inventors: 王冠盛; 林昆祈; 王颖杰; 张书毫
Original assignee: Delta Optoelectronics Inc
Current assignee: Delta Optoelectronics Inc
Priority date: 2008-12-23
Filing date: 2008-12-23
Publication date: 2010-06-30
Anticipated expiration: 2028-12-23
Also published as: CN101762734B

Abstract

The invention discloses an output voltage detection circuit and a switching power supply, wherein the output voltage detection circuit can correspondingly generate test signals according to the compensation voltage and output voltage generated by the conductive layout through which the current flows; as the compensation voltage of the conductive layout is utilized to compensate the conduction voltage drop of the power supply wire, the test signals can reflect the conduction voltage drop of the power supply wire, relatively, the changing amount of the voltage at the system circuit power supply end sent to the system circuit is smaller, and the voltage regulation rate is smaller. The invention has lower cost and smaller volume and has no need to connect two additional detection wires with the power supply end of the system circuit, therefore the total wire material is not led to be thicker, and the invention is applicable to external or portable power supply with total wire material size limit.

Description

Output voltage detecting circuit and switched power supplier

Technical field

The present invention relates to a kind of testing circuit and power supply unit, relate in particular to a kind of the have output voltage detecting circuit of voltage difference compensation and the switched power supplier (switching power supply) of this output voltage detecting circuit of tool.

Background technology

In recent years along with the progress of science and technology, electronic product with difference in functionality of all kinds is developed out gradually, these electronic products with difference in functionality of all kinds have not only satisfied the people of various different demands, more incorporate everyone daily life, and it is more convenient to make people live.

Because the electronic product of these difference in functionalitys of all kinds according to the characteristic of electronic product, is selected suitable electronic package for use and formed, therefore, the supply voltage that the circuit system of each electronic product needs is not quite similar.In order to provide suitable supply voltage to make its normal operation to the circuit system of electronic product, electronic product need produce the required supply voltage of circuit system by power supply unit, for example, power supply unit can produce the output voltage of 12 volts (V), and by power lead the output voltage that power supply unit produces is sent to electronic product.

Wherein, output voltage can change along with the power consumption of circuit system, causes the magnitude of voltage of output voltage to alter a great deal.In order to reduce the magnitude of voltage variable quantity of output voltage, power supply unit can have output voltage detecting circuit, in order to detect output voltage and to produce detection signal according to output voltage, the magnitude of voltage variable quantity of output voltage is reduced.

Yet, the output current of power supply unit can make the power lead that is connected between circuit system and the power supply unit produce the conduction pressure drop, make the magnitude of voltage of the circuit system power end voltage that circuit system receives be not equal to the magnitude of voltage of output voltage, though, the magnitude of voltage variable quantity of output voltage reduces because of testing circuit, but, the magnitude of voltage of circuit system power end voltage still can change along with the power consumption of circuit system, see through power delivery, make that the magnitude of voltage variable quantity of circuit system power end voltage is very big, and the voltage difference between the magnitude of voltage of the power consumption of the magnitude of voltage of the circuit system power end voltage of the power consumption of circuit system when maximum and circuit system circuit system power end voltage hour is also higher, makes the voltage regulation factor (Voltage Regulation) of circuit system power end voltage higher relatively.

In the magnitude of voltage of some traditional output voltage detecting circuits for the circuit system power end voltage of the conduction pressure drop affects that detection signal can be reflected be subjected to power lead, need to use extra load detecting circuit to cooperate, not only make the circuit complexity of output voltage detecting circuit and power supply unit, and manufacturing cost is higher relatively, because, need extra load detecting circuit to cooperate, make that relatively the volume of power supply unit is bigger.

Can additionally increase by two detection lines that are connected in the circuit system power end in some conventional power source supplies, make traditional output voltage detecting circuit can be directly produce detection signal according to the magnitude of voltage of circuit system power end voltage, because, power supply unit needs the extra detection line that increases, cost is increased, also make the whole wire rod that is connected between power supply unit and the circuit system become thicker, can't be applied to some circumscribeds that limit whole wire rod size or portable power supply device.

From the above, the tradition output voltage detecting circuit only produces detection signal according to output voltage, so detection signal can't reflect the magnitude of voltage of the circuit system power end voltage of the conduction pressure drop affects that is subjected to power lead, it is bigger relatively to make the conventional power source supply be sent to the magnitude of voltage variable quantity of circuit system power end voltage of circuit system by power lead, and voltage regulation factor is higher.

Therefore, how to develop a kind of output voltage detecting circuit and switched power supplier that improves above-mentioned known technology defective, real problem for the correlative technology field person solution that presses at present.

Summary of the invention

Fundamental purpose of the present invention is to provide a kind of output voltage detecting circuit and switched power supplier, wherein, output voltage detecting circuit can be according to output current stream bucking voltage and the corresponding detection signal that produces of output voltage through conduction layout (as the Copper Foil of printed circuit board (PCB) or other conducting metal or the like), plan the conduction pressure drop of offset supply line owing to utilize the adjustment of conduction layout, make detection signal can reflect the conduction pressure drop of power lead, and it is poor to be able to bucking voltage, relatively make the magnitude of voltage variable quantity of the circuit system power end voltage that is sent to circuit system less, and voltage regulation factor is less.In addition, output voltage detecting circuit and switched power supplier do not need to cooperate extra load detecting circuit, not only make the circuit of output voltage detecting circuit and switched power supplier simpler, and manufacturing cost are relatively low and volume is less.More not needing additionally increases by two detection lines that are connected in the circuit system power end, so can not make whole wire rod become thicker, can be applied to some circumscribeds that limit whole wire rod size or portable power supply device.

For reaching above-mentioned purpose, of the present invention one than broad sense embodiment for a kind of output voltage detecting circuit is provided, comprise: the conduction layout, the conduction layout comprises power-output terminal, first end and second end at least, and output current flow through first end and second end make between first end and second end and produce bucking voltage; Mu balanced circuit, the earth terminal of mu balanced circuit is connected in first end, in order to adjusting first electric current according to first circuit end of mu balanced circuit and the voltage between earth terminal, and produces detection signal according to first electric current; First resistance is connected in first circuit end of second end and mu balanced circuit; And second resistance, be connected in first circuit end and the power supply positive output end of mu balanced circuit; Wherein, first resistance and second resistance produce branch pressure voltage with the output voltage dividing potential drop between power supply positive output end and power-output terminal, and first circuit end of mu balanced circuit and the voltage between earth terminal are the poor of branch pressure voltage and bucking voltage.

For reaching above-mentioned purpose, of the present invention one than broad sense embodiment for a kind of switched power supplier is provided, comprise: output voltage detecting circuit, comprise: the conduction layout, the conduction layout comprises power-output terminal, first end and second end at least, and output current flow through first end and second end make between first end and second end and produce bucking voltage; Mu balanced circuit, the earth terminal of mu balanced circuit is connected in first end, in order to adjusting first electric current according to first circuit end of mu balanced circuit and the voltage between earth terminal, and produces detection signal according to first electric current; First resistance is connected in first circuit end of second end and mu balanced circuit; And second resistance, be connected in first circuit end and the power supply positive output end of mu balanced circuit; Main power circuit comprises on-off circuit, and main power circuit is connected in power supply positive output end and conduction layout, produces output voltage in order to the electric energy that receives input voltage; And control circuit, be connected in the control end and the output voltage detecting circuit of the on-off circuit of main power circuit, in order to according to detection signal gauge tap circuit turn-on with end, make the magnitude of voltage conversion of input voltage is produced output voltage; Wherein, first resistance and second resistance produce branch pressure voltage with the output voltage dividing potential drop between power supply positive output end and power-output terminal, and first circuit end of mu balanced circuit and the voltage between earth terminal are the poor of branch pressure voltage and bucking voltage.

Description of drawings

Figure 1A: be the output voltage detecting circuit synoptic diagram of the preferred embodiment of the present invention.

Figure 1B: be the output voltage detecting circuit synoptic diagram of another preferred embodiment of the present invention.

Fig. 1 C: be the output voltage detecting circuit synoptic diagram of another preferred embodiment of the present invention.

Fig. 2: be the printed circuit board (PCB) synoptic diagram of the output voltage detecting circuit of the preferred embodiment of the present invention.

Fig. 3: be the circuit diagram of the switched power supplier of the preferred embodiment of the present invention.

Fig. 4: be the circuit diagram of the switched power supplier of another preferred embodiment of the present invention;

And the description of reference numerals in the above-mentioned accompanying drawing is as follows:

1: switched power supplier 11: output voltage detecting circuit

110: conduction layout 111: mu balanced circuit

112: barrier assembly 13: main power circuit

131: on-off circuit 14: control circuit

3: printed-wiring board (PWB) 8: power lead

9: circuit system B ₁: first end

B ₂: the second end R ₁: first resistance

R ₂: second resistance R ₃: the 3rd resistance

D ₁: the first diode D ₂: second diode

C ₁: first capacitor C ₂: second electric capacity

T: transformer N _p: elementary winding

N _s: secondary winding P ₁: the power supply positive output end

P ₂: power-output terminal I _o: output current

I ₁: the first electric current V _o: output voltage

V _R1: branch pressure voltage V _x: bucking voltage

V _f: detection signal V _d: circuit system power end voltage

COM ₁: first meets end L altogether ₁: first inductance

V _L: conduction pressure drop 111A: first circuit end

111B: second circuit end 111G: earth terminal

V _AG: first circuit end of mu balanced circuit and the voltage between earth terminal

Embodiment

Some exemplary embodiments that embody feature of the present invention and advantage will be described in detail in the explanation of back segment.Be understood that the present invention can have various variations on different aspects, its neither departing from the scope of the present invention, and explanation wherein and be shown in the usefulness that ought explain in essence, but not in order to restriction the present invention.

See also Figure 1A, it is the output voltage detecting circuit synoptic diagram of the preferred embodiment of the present invention.Shown in Figure 1A, output voltage detecting circuit 11 is connected in the power supply positive output end P of switched power supplier 1 ₁With power lead 8, output voltage detecting circuit 11 comprises: conduction layout 110, mu balanced circuit 111, first resistance R ₁And second resistance R ₂, wherein, conduction layout 110 has power-output terminal P ₂, the first end B ₁With the second end B ₂, and conduction layout 110 is arranged at the output current I that is flowed back to by power lead 8 _oThe path on.Because the first end B of conduction layout 110 ₁With the second end B ₂So non-same end is output current I _oThe first end B of the conduction layout 110 of flowing through ₁With the second end B ₂The time, at the first end B ₁With the second end B ₂Between can produce bucking voltage V _xAnd the first end B ₁Be arranged at output current I _oThe front side of the conduction layout 110 of flowing through, the second end B ₂Be arranged at output current I _oThe rear side of the conduction layout 110 of flowing through, therefore, the output current I that flows back to by power lead 8 _oPower-output terminal P in regular turn can flow through ₂, the first end B ₁With the second end B ₂In other words, the first end B of conduction layout 110 ₁Than the second end B ₂Near power-output terminal P ₂, by the first end B of conduction layout 110 ₁To power-output terminal P ₂Path by the second end B of conduction layout 110 ₂To power-output terminal P ₂Path short, output current I _oCan flow through the first end B of conduction layout 110 earlier ₁Flow through the second end B of conduction layout 110 again ₂

In some embodiment, the first end B of conduction layout 110 ₁With power-output terminal P ₂Be same end (not shown), similarly, can make output current I _oThe first end B of the conduction layout 110 of flowing through ₁With the second end B ₂The time, at the first end B ₁With the second end B ₂Between can produce bucking voltage V _xAnd the first end B ₁Be arranged at output current I _oThe front side of the conduction layout 110 of flowing through, the second end B ₂Be arranged at output current I _oThe rear side of the conduction layout 110 of flowing through, therefore, the output current I that flows back to by power lead 8 _oThe first end B in regular turn can flow through ₁With the second end B ₂

It is voltage stabilizing IC or the stabipack realization of TL431 that mu balanced circuit 111 can be selected Texas Instruments (TI) model for use, but not as limit, in some embodiment, mu balanced circuit 111 also can be by operational amplifier (Operational Amplifier, OP Amp) forms (not shown) with resistance, in order to according to first circuit end 111A of mu balanced circuit 111 and the voltage V between earth terminal 111G (ground) _AGWith the reference voltage in the mu balanced circuit 111, for example 2.495 volts, adjustment flows into first electric current I of the second circuit end 111B of mu balanced circuit 111 automatically ₁, and according to this first electric current I ₁Produce detection signal V _f, so detection signal V _fEqually can be along with first circuit end 111A of mu balanced circuit 111 and the voltage V between earth terminal 111G _AGAnd change.The earth terminal 111G of mu balanced circuit 111 is connected in the first end B of conduction layout 110 ₁, the first circuit end 111A of mu balanced circuit 111 is connected in first resistance R ₁With second resistance R ₂An end, first resistance R ₁The other end be connected in the conduction layout 110 the second end B ₂, second resistance R ₂The other end be connected in power supply positive output end P ₁

In some embodiment, when mu balanced circuit 111 uses Texas Instruments's model to realize as the voltage stabilizing IC of TL431 (not shown), the reference edge of this TL431, cathode terminal and the corresponding respectively first circuit end 111A, second circuit end 111B and the earth terminal 111G that is connected in mu balanced circuit 111 of anode tap.

See also Figure 1A and Figure 1B, wherein Figure 1B is the output voltage detecting circuit synoptic diagram of another preferred embodiment of the present invention.Figure 1B and Figure 1A difference are that the output voltage detecting circuit 11 of Figure 1B also comprises a barrier assembly 112, and the input side of barrier assembly 112 is connected in power supply positive input terminal P ₁And between the second circuit end 111B of mu balanced circuit 111, and the outgoing side of barrier assembly 112 be connected in first connect altogether the end COM ₁Therefore, first electric current I ₁Also can the flow through input side of barrier assembly 112, and the outgoing side of barrier assembly 112 can be according to first electric current I of the input side that flows into barrier assembly 112 ₁Produce detection signal V _f

See also Figure 1B and Fig. 1 C, wherein Fig. 1 C is the output voltage detecting circuit synoptic diagram of another preferred embodiment of the present invention.Fig. 1 C and Figure 1B difference are that the output voltage detecting circuit 11 of Fig. 1 C also comprises one the 3rd resistance R ₃, the 3rd resistance R ₃Be connected in series in power supply positive input terminal P with the input side of barrier assembly 112 ₁And between the second circuit end 111B of mu balanced circuit 111.In present embodiment, the 3rd resistance R ₃An end be connected in power supply positive input terminal P ₁, the 3rd resistance R ₃The other end be connected in an end of the input side of barrier assembly 112, the other end of the input side of barrier assembly 112 is connected in the second circuit end 111B of mu balanced circuit 111.So, first electric current I ₁Except flowing through the input side of barrier assembly 112, the 3rd resistance R of also can flowing through ₃

Output voltage detecting circuit 11 utilizes first resistance R ₁With second resistance R ₂With power supply positive output end P ₁With power-output terminal P ₂Between output voltage V _oDividing potential drop and in first resistance R ₁Two ends produce branch pressure voltage V _R1, output voltage V wherein _oWith branch pressure voltage V _R1Relational expression is

V_{R 1} = \frac{R_{1}}{R_{1} + R_{2}} \cdot V_{o} .

And first circuit end 111A of mu balanced circuit 111 and the voltage V between earth terminal 111G _AGBe branch pressure voltage V _R1With bucking voltage V _xPoor, its relational expression is

V_{AG} = V_{R 1} - V_{X} = \frac{R_{1}}{R_{1} + R_{2}} \cdot V_{o} - V_{X},

Promptly

V _R1＝V _AG+V _X。

Therefore, first electric current I that adjusted by mu balanced circuit 111 ₁Can be along with branch pressure voltage V _R1With bucking voltage V _xAnd change, relatively, detection signal V _fAlso along with branch pressure voltage V _R1With bucking voltage V _xAnd change.Because branch pressure voltage V _R1Be along with output voltage V _oChange, and bucking voltage V _xBe along with output current I _oChange, so, detection signal V _fCan be along with output voltage V _oWith output current I _oChange.

The output current I of power lead 8 owing to flow through _oCan make power lead 8 produce conduction pressure drop V _L, make circuit system power end voltage V _dMagnitude of voltage equal output voltage V _oSubtract conduction pressure drop V _L, its relational expression is V _d=V _o-V _L, and then cause switched power supplier 1 to be sent to the circuit system power end voltage V of circuit system 9 _dMagnitude of voltage less than output voltage V _oMagnitude of voltage.Therefore, if use traditional output voltage detecting circuit 11 according to output voltage V _oProduce detection signal V _fMagnitude of voltage can be greater than foundation circuit system power end voltage V _dProduce detection signal V _fMagnitude of voltage.Yet, bucking voltage V of the present invention _xBe along with output current I _oChange, this characteristic is same as along with output current I _oThe conduction pressure drop V that changes _L, therefore, output voltage detecting circuit 11 of the present invention is to utilize bucking voltage V _xThe conduction pressure drop V of offset supply line 8 _L, can make detection signal V _fAlso reflect the conduction pressure drop V of power lead 8 _L

See also Fig. 2, it is the printed circuit board (PCB) synoptic diagram of the output voltage detecting circuit of the preferred embodiment of the present invention.As shown in Figure 2, (Printed circuit board, PCB) the conduction layout 110 in 3 has power-output terminal P to printed circuit board (PCB) ₂, the first end B ₁With the second end B ₂, wherein, the conduction layout 110 of printed circuit board (PCB) 3 can utilize Copper Foil or other conducting metal or the like to realize, not as limit.And power lead 8 is connected to power supply positive output end P ₁, power-output terminal P ₂With circuit system 9.Output current I _oBy power supply positive output end P ₁Flow out and flow through power lead 8 and circuit system 9, again by power-output terminal P ₂Flow back to conduction layout 110.Similarly, the flow through output current I of power lead 8 _oCan make power lead 8 produce conduction pressure drop V _L, and cause circuit system power end voltage V _dMagnitude of voltage less than power supply positive output end P ₁With power-output terminal P ₂Between output voltage V _oMagnitude of voltage.

Wherein, conduction layout 110 is arranged at the output current I that is flowed back to by power lead 8 _oThe path on since the conduction layout 110 the first end B ₁With the second end B ₂So non-same end is output current I _oThe first end B of the conduction layout 110 of flowing through ₁With the second end B ₂The time, at the first end B ₁With the second end B ₂Between can produce bucking voltage V _x, and the first end B ₁Be arranged at output current I _oThe front side of the conduction layout 110 of flowing through, the second end B ₂Be arranged at output current I _oThe rear side of the conduction layout 110 of flowing through, therefore, the output current I that flows back to by power lead 8 _oPower-output terminal P in regular turn can flow through ₂, the first end B ₁With the second end B ₂, in other words, the first end B of conduction layout 110 ₁Near power-output terminal P ₂, by the first end B of conduction layout 110 ₁To power-output terminal P ₂Path by the second end B of conduction layout 110 ₂To power-output terminal P ₂Path short, output current I _oCan flow through the first end B of conduction layout 110 earlier ₁Flow through the second end B of conduction layout 110 again ₂

Because the shape of conduction layout 110 can constitute conductive path, makes output current I _oThe first end B in regular turn flows through ₁With the second end B ₂, therefore, the shape of conduction layout 110 does not limit, in some embodiment, conduction layout 110 be shaped as rectangle (not shown), its purpose is at the first end B that makes conduction layout 110 ₁With the second end B ₂Between the easier design of resistance characteristic.

See also Fig. 1 C and Fig. 3, wherein Fig. 3 is the circuit diagram of the switched power supplier of the preferred embodiment of the present invention.Switched power supplier 1 as shown in Figure 3 also comprises main power circuit 13 and control circuit 14 except comprising the output voltage detecting circuit 11 shown in Fig. 1 C, and main power circuit 13 is connected in control circuit 14, power supply positive output end P ₁, conduction layout 110, in order to receive input voltage V _InElectric energy and conversion input voltage V _InMagnitude of voltage and produce output voltage V _oIn present embodiment, main power circuit 13 comprises transformer T, on-off circuit 131, the first diode D ₁And first capacitor C ₁, wherein, transformer T has elementary winding N _pWith secondary winding N _s, and the elementary winding N of transformer T _pBe connected secondary winding N with on-off circuit 131 _sAn end be connected in the first diode D ₁Anode tap, secondary winding N _sThe other end be connected in the conduction layout 110.On-off circuit 131 is connected in elementary winding N _p, first connect altogether the end COM ₁And control circuit 14, and, make input voltage V by the operation of control circuit 14 gauge tap circuit 12 _InElectric energy by the elementary winding N of transformer T _pBe sent to secondary winding N _sThe first diode D ₁Anode tap be connected in secondary winding N _sAn end, the first diode D ₁Cathode terminal be connected in first capacitor C ₁An end and power supply positive output end P ₁, and first capacitor C ₁The other end be connected in the conduction layout 110.

Control circuit 14 is connected in the end of outgoing side of the barrier assembly 112 of the control end of on-off circuit 131 of main power circuit 13 and output voltage detecting circuit 11, in order to according to detection signal V _fOn-off circuit 131 conductings of control main power circuit 13 and the operation conditions of ending, for example dutycycle (duty cycle) or running frequency make input voltage V _InElectric energy by the elementary winding N of transformer T _pBe sent to the secondary winding N of transformer T _s, and then make main power circuit 13 receive input voltage V _InElectric energy and conversion input voltage V _InMagnitude of voltage and produce output voltage V _oControl circuit 14 can be but not be defined as Pwm controller (pulse width modulation controller, PWM controller) or digital signal processor (digital signal processor, DSP) and pulse frequency modulation controller (pulsefrequency modulation controller, PFM controller).

Similarly, output voltage detecting circuit 11 utilizes first resistance R ₁With second resistance R ₂With power supply positive output end P ₁With power-output terminal P ₂Between output voltage V _oDividing potential drop and in first resistance R ₁Two ends produce branch pressure voltage V _R1, output voltage V wherein _oWith branch pressure voltage V _R1Relational expression is

V_{R 1} = \frac{R_{1}}{R_{1} + R_{2}} \cdot V_{o} .

V_{AG} = V_{R 1} - V_{X} = \frac{R_{1}}{R_{1} + R_{2}} \cdot V_{o} - V_{X},

Promptly

V _R1＝V _AG+V _X。

Bucking voltage V of the present invention _xBe along with output current I _oChange, this characteristic is same as along with output current I _oThe conduction pressure drop V that changes _L, therefore, output voltage detecting circuit 11 of the present invention is to utilize bucking voltage V _xThe conduction pressure drop V of offset supply line 8 _L, can be so that detection signal V _fReflect the conduction pressure drop V of power lead 8 _L, relatively make output voltage V _oBe compensated, and switched power supplier 1 is sent to the circuit system power end voltage V of circuit system 9 by power lead 8 _dMagnitude of voltage also can be compensated, make circuit system power end voltage V _dThe magnitude of voltage variable quantity less.

For example, output voltage V _oLoad voltage value be 12 volts, but traditional exchange formula power supply unit is sent to the circuit system power end voltage V of circuit system 9 via power lead 8 _dMagnitude of voltage but be not 12 volts load voltage value, in switched power supplier 1 of the present invention by bucking voltage V _xThe conduction pressure drop V of offset supply line 8 _L, can make the circuit system power end voltage V that is sent to circuit system 9 _dMaintain 12 volts load voltage value.

See also Figure 1A, Fig. 3 and Fig. 4, wherein Fig. 4 is the circuit diagram of the switched power supplier of another preferred embodiment of the present invention.The switched power supplier 1 of Fig. 4 and Fig. 3 is except main power circuit 13 is different, Fig. 4 is also different with the employed output voltage detecting circuit 11 of the switched power supplier of Fig. 3, and the output voltage detecting circuit 11 of the switched power supplier 1 of Fig. 4 is the output voltage detecting circuit 11 shown in Figure 1A.

In Fig. 4, main power circuit 13 packet switch circuit 131, first inductance L ₁, the second diode D ₂And second capacitor C ₂, wherein, on-off circuit 131 is connected in control circuit 14, first inductance L ₁An end, the second diode D ₂Cathode terminal.First inductance L ₁An end be connected in the on-off circuit 131 and the second diode D ₂Cathode terminal, first inductance L ₁The other end be connected in second capacitor C ₂An end.The second diode D ₂Anode tap be connected in conduction layout 110, the second diode D ₂Cathode terminal be connected in the on-off circuit 131 and first inductance L ₁An end.Second capacitor C ₂An end be connected in first inductance L ₁The other end, second capacitor C ₂The other end be connected in the conduction layout 110.

Control circuit 14 is connected in the second circuit end 111B of the mu balanced circuit 111 of the control end of on-off circuit 131 of main power circuit 13 and output voltage detecting circuit 11, in order to according to detection signal V _fOn-off circuit 131 conductings of control main power circuit 13 and the operation conditions of ending make input voltage V _InElectric energy by first inductance L ₁With the filtering of C2, make main power circuit 13 produce output voltage V _o

V_{R 1} = \frac{R_{1}}{R_{1} + R_{2}} \cdot V_{o} .

V_{AG} = V_{R 1} - V_{X} = \frac{R_{1}}{R_{1} + R_{2}} \cdot V_{o} - V_{X},

Promptly

V _R1＝V _AG+V _X。

Therefore, first electric current I that adjusted by mu balanced circuit 111 ₁Can be along with branch pressure voltage V _R1With bucking voltage V _xAnd change, relatively, detection signal V _fAlso along with branch pressure voltage V _R1With bucking voltage V _xAnd change.Because branch pressure voltage V _R1Be along with output voltage V _oChange, and bucking voltage V _xBe along with output current I _oChange, so, detection signal V _fCan be along with output voltage V _oWith output current I _oChange.In some embodiment, at control circuit 14 according to detection signal V _fWhen adjusting on-off circuit 131 operations, can make first circuit end 111A of mu balanced circuit 111 and the voltage V between earth terminal 111G _AGEqual the reference voltage in the mu balanced circuit 111, for example 2.495 volts.

In sum, output voltage detecting circuit of the present invention can produce the corresponding detection signal that produces of bucking voltage and output voltage according to the conduction layout of output current stream process, owing to utilize the conduction pressure drop V of the bucking voltage offset supply line of conduction layout _L, make detection signal can reflect the conduction pressure drop V of power lead _L, relatively make the magnitude of voltage variable quantity of the circuit system power end voltage that is sent to circuit system less, and voltage regulation factor is less.In addition, output voltage detecting circuit does not need to cooperate extra load detecting circuit, not only make the circuit of output voltage detecting circuit simpler, and manufacturing cost is relatively low and volume is less.More not needing additionally increases by two detection lines that are connected in the circuit system power end, so can not make whole wire rod become thicker, can be applied to some circumscribeds that limit whole wire rod size or portable power supply device.

In addition, the output voltage detecting circuit of switched power supplier of the present invention can flow the bucking voltage and the corresponding detection signal that produces of output voltage of the conduction layout of process according to output current, owing to utilize the conduction pressure drop V of the bucking voltage offset supply line of conduction layout _L, make detection signal can reflect the conduction pressure drop V of power lead _LOutput voltage is compensated, and switched power supplier also can be compensated by the magnitude of voltage that power lead is sent to the circuit system power end voltage of circuit system, make the magnitude of voltage variable quantity of circuit system power end voltage less, and voltage regulation factor is less.In addition, output voltage detecting circuit does not need to cooperate extra load detecting circuit, not only make the circuit of switched power supplier simpler, and manufacturing cost is relatively low and volume is less.More not needing additionally increases by two detection lines that are connected in the circuit system power end, so can not make whole wire rod become thicker.

The present invention must be thought and is to modify the right neither claimed scope of claims of taking off as all by ordinary skill Shi Renshi craftsman.

Claims

1. output voltage detecting circuit comprises:

One conduction layout, this conduction layout comprises a power-output terminal, one first end and one second end at least, and an output current flow through this first end and this second end, makes generation one bucking voltage between this first end and this second end;

One mu balanced circuit, the earth terminal of this mu balanced circuit are connected in this first end, adjust one first electric current in order to first circuit end and the voltage between earth terminal according to this mu balanced circuit, and produce a detection signal according to this first electric current;

One first resistance is connected in first circuit end of this second end and this mu balanced circuit; And

One second resistance is connected in first circuit end and a power supply positive output end of this mu balanced circuit;

Wherein, this first resistance and this second resistance produce a branch pressure voltage with the output voltage dividing potential drop between this power supply positive output end and this power-output terminal, and first circuit end of this mu balanced circuit and the voltage between earth terminal are the poor of this branch pressure voltage and this bucking voltage.

2. output voltage detecting circuit as claimed in claim 1, wherein an end of this first resistance is connected in this second end, the other end of this first resistance is connected in first circuit end of this mu balanced circuit, one end of this second resistance is connected in first circuit end of this mu balanced circuit, and the other end of this second resistance is connected in this power supply positive output end.

3. output voltage detecting circuit as claimed in claim 1, also comprise a barrier assembly, the input side of this barrier assembly is connected between the second circuit end of this power supply positive input terminal and this mu balanced circuit, and produces this detection signal according to this first electric current in the outgoing side of this barrier assembly.

4. output voltage detecting circuit as claimed in claim 3 also comprises one the 3rd resistance, and the input side of this barrier assembly and the 3rd resistance are connected in series between the second circuit end of this power supply positive input terminal and this mu balanced circuit.

5. output voltage detecting circuit as claimed in claim 1, wherein this first end and this power-output terminal are same end.

6. output voltage detecting circuit as claimed in claim 1, wherein this branch pressure voltage is the voltage at these first resistance two ends.

7. output voltage detecting circuit as claimed in claim 1, wherein this power supply positive output end also is connected a power lead with this power-output terminal, and transmits circuit system power end voltage to one circuit system by this power lead.

8. output voltage detecting circuit as claimed in claim 7, wherein this conduction layout is arranged on the path of this output current that is flowed back to by this power lead, and this output current flow through in regular turn this power-output terminal, this first end and this second end.

9. output voltage detecting circuit as claimed in claim 1, wherein this first end is shorter than the path of this second end to this power-output terminal to the path of this power-output terminal.

10. output voltage detecting circuit as claimed in claim 1, wherein this first end is arranged at the front side of this conduction layout, and this second end is arranged at the rear side of this conduction layout.

11. a switched power supplier comprises:

One output voltage detecting circuit comprises:

One main power circuit comprises an on-off circuit, and this main power circuit is connected in this power supply positive output end and this conduction layout, produces an output voltage in order to the electric energy that receives an input voltage; And

One control circuit is connected in control end and this output voltage detecting circuit of this on-off circuit of this main power circuit, in order to control this on-off circuit conducting according to this detection signal and to end, makes the magnitude of voltage conversion of this input voltage is produced this output voltage;

Wherein, this first resistance and this second resistance produce a branch pressure voltage with this output voltage dividing potential drop between this power supply positive output end and this power-output terminal, and first circuit end of this mu balanced circuit and the voltage between earth terminal are the poor of this branch pressure voltage and this bucking voltage.

12. switched power supplier as claimed in claim 11, wherein this output voltage detecting circuit also comprises a barrier assembly, the input side of this barrier assembly is connected between the second circuit end of this power supply positive input terminal and this mu balanced circuit, and produces this detection signal according to this first electric current in the outgoing side of this barrier assembly.

13. switched power supplier as claimed in claim 11, wherein this main power circuit also comprises:

One transformer has an elementary winding and a level winding, and this elementary winding is connected in this on-off circuit, and this secondary winding is connected in this conduction layout;

One first diode, the anode tap of this first diode are connected in an end of this secondary winding, and the cathode terminal of this first diode is connected in this power supply positive output end; And

One first electric capacity, an end of this first electric capacity is connected in the second circuit end of this first diode, and the other end of this first electric capacity is connected in this conduction layout.

14. switched power supplier as claimed in claim 11, wherein this main power circuit also comprises:

One first inductance, an end of this first inductance is connected in this on-off circuit.

One second diode, the anode tap of this second diode are connected in this conduction layout, and the cathode terminal of this second diode is connected in an end of this on-off circuit and this first inductance; And

One second electric capacity, an end of this second electric capacity is connected in the other end of this first inductance, and the other end of this second electric capacity is connected in this conduction layout.

15. switched power supplier as claimed in claim 11, wherein this control circuit is Pwm controller or digital signal processor.

16. switched power supplier as claimed in claim 11, wherein an end of this first resistance is connected in this second end, the other end of this first resistance is connected in first circuit end of this mu balanced circuit, one end of this second resistance is connected in first circuit end of this mu balanced circuit, and the other end of this second resistance is connected in this power supply positive output end.

17. switched power supplier as claimed in claim 11, wherein this branch pressure voltage is the voltage at these first resistance two ends.

18. switched power supplier as claimed in claim 11, wherein this power supply positive output end also is connected a power lead with this power-output terminal, and transmits circuit system power end voltage to one circuit system by this power lead.

19. switched power supplier as claimed in claim 18, wherein this conduction layout is arranged on the path of this output current that is flowed back to by this power lead, and this output current flow through in regular turn this power-output terminal, this first end and this second end.

20. switched power supplier as claimed in claim 11, wherein this first end is shorter than the path of this second end to this power-output terminal to the path of this power-output terminal.

21. switched power supplier as claimed in claim 11, wherein this first end is arranged at the front side of this conduction layout, and this second end is arranged at the rear side of this conduction layout.

22. output voltage detecting circuit as claimed in claim 11, wherein this first end and this power-output terminal are same end.