CN1725615A - Pulse width modulation switch power circuit - Google Patents

Abstract

A power circuit of pulse width modulating switch is connecting the first capacity unit to certain place between the first terminal of the first field effect tube and the third terminal of the second field effect tube in order to let its discharge current arrive the first end of the first field effect tube before the first field effect tube is connected through, using the second capacity unit for filtering noise of power circuit of pulse width modulating switch.

Description

Pulse width modulation switch power circuit

Technical field

The present invention relates to switching power circuit, relate in particular to a kind of pulse width modulation switch power circuit.

Background technology

Along with the development of chip manufacturing process, adopt the chip of low-voltage, big current work to occur in a large number, promote the extensive use of PWM (Pulse Wide Modulation, pulse width modulation) voltage-dropping type voltage control chip.This PWM voltage control chip and MOSFET (metallic oxide semiconductor fieldeffecttransistor, mos field effect transistor) pipe, inductance, electric capacity etc., form the PWM switching power circuit, for load provides required various voltages.

The operation principle of PWM switching power circuit is that periodically conducting and the process of closing provide output voltage and electric current by two MOSFET of PWM voltage control chip controls pipe.When the conducting of MOSFET pipe transient state, external power source provides electric current, and this electric current is managed by MOSFET, passes through inductance and electric capacity again, offers the power source loads of level behind the PWM switching power circuit and the power supply electric capacity around the load.During the conducting of MOSFET pipe transient state, the power supply electric capacity of power source loads begins charging.Generally speaking, the electric current during the electric capacity charging is far longer than the groundwork electric current of power source loads, and this must obtain enough big electric current when just requiring the conducting of MOSFET pipe transient state, to guarantee that the MOSFET pipe can normally.

In the general mode that rolls up electric capacity at the power input of PWM switching power circuit that adopts of prior art, realize big electric current supply.A kind of PWM switching power circuit of the prior art comprises pwm unit 101 as shown in Figure 1, and MOSFET pipe 102, MOSFET manage 103 (being the N channel transistor in this example), inductance L 1, output filter capacitor C1, input capacitance C2 ', C3 '.Vin links to each other with the VIN pin of pwm unit 101 from external power source; The GND pin of pwm unit 101 links to each other with earth potential Gnd (also can be called reference potential); The first control signal output ends TS of pwm unit 101 links to each other with the grid of MOSFET pipe 102; The second control signal output ends BS of pwm unit 101 links to each other with the grid of MOSFET pipe 103; The leakage level of MOSFET pipe 102 links to each other with external power source, the source class of MOSFET pipe 103 links to each other with ground, the source class of MOSFET pipe 102 links to each other with the leakage level of MOSFET pipe 103, and be connected to the power output end Vout of PWM switching power circuit by inductance L 1, point carries out filtering by C1 ground connection between L1 and Vout; The positive pole of input capacitance C2 ', C3 ' is connected on the leakage level place of MOSFET pipe 102, and minus earth is for load provides big electric current.

For sort circuit, when pcb board designs, if it is 102 distant that input capacitance C2 ', C3 ' manage apart from MOSFET, so when MOSFET manages 102 conductings, C2 ' and C3 ' just may come not anxious to 102 power supplies of MOSFET pipe, if and the very strong electric capacity charging current of the power source loads of PWM switching power circuit needs, then can cause MOSFET to manage 102 can't normally.In addition, because the switching frequency of PWM chip is generally between 100KHz～1MHZ, and the noise in the frequency range of 100KHz～1MHz has the greatest impact to the external power source of giving the power supply of PWM switching power circuit, when the capacitor's capacity of C2 ', C3 ' is selected when improper, 100KHz～the 1MHZ that is produced by the PWM switching power circuit can seal in the external power source by the MOSFET pipe, forms to disturb.

Because prior art; the operation principle at the PWM switching power circuit does not design; usually can produce very strong noise during the work of PWM switching power circuit; when the conducting of MOSFET pipe; this noise is managed by way of MOSFET; seal in external power source module, use the chip of same power supply to cause interference may for external power source module or other to the power supply of MOSFET pipe.In addition,, not only raise the cost that electronic equipment is made, also may increase the volume of electronic equipment along with increasing of electric capacity quantity.Therefore, be the power supply or filtering does not all reach best effect.

Summary of the invention

The problem to be solved in the present invention provides a kind of pulse width modulation switch power circuit, to overcome in the existing technology power supply and filtration efficiency is low, defect of high cost.

For achieving the above object, the invention discloses a kind of pulse width modulation switch power circuit, comprising:

Pwm unit, first field effect transistor, second field effect transistor, filter unit,

Described pwm unit comprises: first control signal output ends and second control signal output ends, wherein, described first control signal output ends links to each other with second terminal of first field effect transistor, be used to control the conducting of first field effect transistor or end, described second control signal output ends links to each other with second terminal of second field effect transistor, is used to control the conducting of second field effect transistor or end; The first terminal of described first field effect transistor links to each other with external power source, the 3rd terminal of described second field effect transistor links to each other with earth potential, the 3rd terminal of described first field effect transistor links to each other with the first terminal of described second field effect transistor, and is connected to circuit output end by described filter unit

Also comprise first capacitor cell, described first capacitor cell comprises at least one electric capacity, the positive pole of this capacitor cell is connected to the first terminal of described first field effect transistor, the negative pole of this capacitor cell is connected to the 3rd terminal of described second field effect transistor, and the residing position of described first capacitor cell must make its discharging current arrive first field effect transistor, first end before the first field effect transistor conducting.

Also comprise second capacitor cell, described second capacitor cell comprises at least one electric capacity, this capacitor cell positive pole is connected to the first terminal of first field effect transistor, and negative pole is connected to the 3rd terminal of second field effect transistor, is used for the noise of filtering pulse width modulation switch power circuit.

Electric capacity in described first capacitor cell is Surface Mount tantalum electric capacity or plug-in mounting electrochemical capacitor.

The appearance value of described Surface Mount tantalum electric capacity or plug-in mounting electrochemical capacitor is 220uF to 1000uF.

Electric capacity in described second capacitor cell is the Surface Mount ceramic condenser.

The appearance value of described Surface Mount ceramic condenser is 1uF to 10uF.

On circuit board, the orientation of the chip pin that the chip pin of the first terminal correspondence of described first field effect transistor and described second field effect transistor the 3rd terminal are corresponding is identical.

Described second capacitor cell, described first capacitor cell, first field effect transistor and second field effect transistor are on the same surface of circuit board.

Described second capacitor cell is close to described first field effect transistor and second field effect transistor than first capacitor cell.

Described first capacitor cell is close to described first field effect transistor and second field effect transistor than second capacitor cell.

Compared with prior art, the present invention has the following advantages:

The invention provides a kind of in the PWM switching power circuit a kind of capacitor design mode of power supply input side, by filter capacitor with noise-filtering, and be power supply power supply by big electric capacity, can also can effectively eliminate of the noise jamming of PWM switching power circuit for the MOSFET pipe provides enough electric currents to external power source.

Description of drawings

Fig. 1 is prior art circuits figure;

Fig. 2 is a basic principle structure chart of the present invention;

Fig. 3 is the first embodiment of the invention structure chart;

Fig. 4 is the second embodiment of the invention structure chart;

Fig. 5 is the third embodiment of the invention structure chart;

Fig. 6 is the fourth embodiment of the invention structure chart;

Fig. 7 is the fifth embodiment of the invention structure chart.

Embodiment

Basic structure of the present invention comprises as shown in Figure 2:

Pwm unit 201, first field effect transistor 202, second field effect transistor 203, the filter unit that output filter inductance L1 and output filter capacitor C1 constitute, described pwm unit 201 comprises power supply terminal Vin, ground terminal Gnd, sub-TS of first control signal output ends and the sub-BS of second control signal output ends, described power supply terminal Vin links to each other with external power source, described ground terminal Gnd links to each other with earth potential, the sub-TS of described first control signal output ends links to each other with second terminal 2 of first field effect transistor 202, be used to control the conducting of first field effect transistor 202 or end, the sub-BS of described second control signal output ends links to each other with second terminal 2 of second field effect transistor 203, is used to control the conducting of second field effect transistor 203 or end; The first terminal 1 of described first field effect transistor 202 links to each other with external power source, the 3rd terminal 3 of described second field effect transistor 203 links to each other with earth potential, the 3rd terminal 3 of described first field effect transistor 202 links to each other with the first terminal 1 of described second field effect transistor 203, and be connected to circuit output end Vout by described output filter inductance L1, between this inductance L 1 and this output end vo ut, be connected to earth potential by described output filter capacitor C1.

Also comprise capacitor C 2 and capacitor C 3, capacitor C 2 positive poles are connected to the first terminal 1 of first field effect transistor 202, and negative pole is connected to the 3rd terminal 3 of second field effect transistor 203, are used for the noise of filtering pulse width modulation switch power circuit; The positive pole of capacitor C 3 is connected to the first terminal 1 of described first field effect transistor 202, negative pole is connected to the 3rd terminal 3 of described second field effect transistor 203, be used for providing transient current, and described capacitor C 3 residing positions must make its discharging current arrive first field effect transistor, 202 first ends in 202 conducting moments of first field effect transistor (i.e. first control signal rise finish before) to first field effect transistor 202 and second field effect transistor 203.Same reason, at 203 conducting moments of second field effect transistor (i.e. second control signal rise finish before), the discharging current of capacitor C 3 arrives second field effect transistor 203 the 3rd end.

First field effect transistor of the present invention and second field effect transistor can adopt N channel transistor or P channel transistor.Below adopt different embodiment to describe.

When first field effect transistor and second field effect transistor all were the N channel transistor, the first terminal of described first and second field effect transistor was for leaking level, and second terminal is a grid, and the 3rd terminal is a source class.The circuit structure of one embodiment of the present of invention is as shown in Figure 3:

Comprise pwm unit 301, the one N channel transistors 302, the 2nd N channel transistor 303, output filter inductance L1, output filter capacitor C1.Vin is the external power source from outside primary power source module, links to each other with the VIN pin of pwm unit 301; The GND pin of pwm unit 301 and reference potential (: Gnd) link to each other; First control signal of pwm unit 301 (Top drive) output TS links to each other with the grid of a N channel transistor 302, is used to control the conducting of a N channel transistor 302 or end; Second control signal of pwm unit 301 (bottom drive) output BS links to each other with the grid of the 2nd N channel transistor 303, is used to control the conducting of the 2nd N channel transistor 302 or end; The leakage level of the one N channel transistor 302 links to each other with external power source Vin, the source class of the 2nd N channel transistor 303 links to each other with ground Gnd, the source class of the one N channel transistor 302 links to each other with the leakage level of the 2nd N channel transistor 303, and be connected to Vout by output filter inductance L1, Vout is the power output end of PWM switching power circuit, between L1 and Vout, meet output filter capacitor C1, carry out filtering to Gnd.

Also comprise capacitor C 2 and capacitor C 3 in the circuit, capacitor C 2 one ends (divide other electric capacity when use has polarity, be positive pole) be connected to the leakage level of a N channel transistor 302, the other end (divides other electric capacity when use has polarity, be negative pole) be connected to the source class of the 2nd N channel transistor 303, be used for the noise of filtering pulse width modulation switch power circuit; The positive pole of capacitor C 3 is connected to the leakage level of a described N channel transistor 302, the negative pole of this electric capacity is connected to the source class of described the 2nd N channel transistor 303, and being used for provides transient current to a N channel transistor 302 and the 2nd N channel transistor 303.Described capacitor C 2 is close to described first field effect transistor and second field effect transistor than capacitor C 3; Or described capacitor C 3 is close to described first field effect transistor and second field effect transistor than capacitor C 2.

Capacitor C 2 is the Surface Mount ceramic condenser, also can be the electric capacity of other kind, and the appearance value is 1uF to 10uF (this appearance value is a preferred value, according to the side circuit difference, can change).Capacitor C 2 is selected the Surface Mount ceramic condenser for use, is because ceramic condenser has good filtering effect in the frequency range of 100KHz～1MHz, can effectively absorb the noise from the PWM switching power circuit.Capacitor C 2 is selected surface mounting components, be because Surface Mount electric capacity can be very approaching be welded near a N channel transistor 302 and the 2nd N channel transistor 303, reduce parameters such as lead-in inductance, parasitic capacitance, help the filtering of C2 to noise.

Capacitor C 3 is that the appearance value is Surface Mount tantalum electric capacity or plug-in mounting alminium electrolytic condenser, also can be the electric capacity of other kind, and the appearance value is 220uF to 1000uF (this appearance value is a preferred value, according to the side circuit difference, can change).It is Surface Mount tantalum electric capacity or plug-in mounting alminium electrolytic condenser that capacitor C 3 is selected the appearance value for use, can accomplish enough transient currents to be provided at any time M1, M2.The concrete capacitor's capacity of C3 is determined by actual power.C3 preferentially selects the tantalum electric capacity of Surface Mount for use, because tantalum electric capacity adopts the Surface Mount encapsulation, can reduce parameters such as lead-in inductance, parasitic capacitance very near a N channel transistor 302 and the 2nd N channel transistor 303.And the relative alminium electrolytic condenser of tantalum electric capacity has more stable temperature characterisitic.And the MOSFET plumber when doing temperature higher, cause ambient temperature to rise.Alminium electrolytic condenser uses in this environment and may reduce useful life.Certainly, if the electronic system cost requirement is higher, also can use alminium electrolytic condenser, but must consider heat dissipation design.

In addition when pcb board designs, capacitor C 2 should be connected across between the source electrode of drain electrode, the 2nd N channel transistor 303 of a N channel transistor 302, and as far as possible near a N channel transistor 302 and the 2nd N channel transistor 303.C2 and C3 on the PCB circuit board the position and a N channel transistor 302, the 2nd N channel transistor 303 with one side, filter effect can be better, for example, if a N channel transistor 302, the 2nd N channel transistor 303 are placed on the upper surface of pcb board, then C2, C3 also are placed on the upper surface of pcb board.If a N channel transistor 302, the 2nd N channel transistor 303 are placed on the bottom surface of pcb board, then C2, C3 also are placed on the bottom surface of pcb board.Moreover the drain electrode of C2, C3 and a N channel transistor 302, when the source electrode of the 2nd N channel transistor 303 is connected adopt large stretch of copper sheet to connect, and can not use fine rule, can help the transmission of big electric current, and can not introduce stray inductance.Use above-mentioned several designs and can provide optimum power supply and filtering condition to electric capacity.

The selection of capacitor C 2 and capacitor C 3 also needs to consider the input voltage of outside primary power source.The proof voltage values of capacitor C 2, capacitor C 3 itself must be much larger than input power source voltage value.

The circuit structure of an alternative embodiment of the invention as shown in Figure 4, with the difference of first embodiment for capacitor C 2 usefulness second capacitor cell replacement (comprising capacitor C 21 and C22), capacitor C 3 usefulness first capacitor cell is replaced (comprising capacitor C 31 and C32), C21 in second capacitor cell and C22 parallel connection, one end (positive pole) is connected to the leakage level of a N channel transistor 402, the other end (negative pole) is connected to the source class of the 2nd N channel transistor 403, is used for the noise of filtering pulse width modulation switch power circuit; The first capacitor cell C31 and C32 parallel connection, the positive pole of this capacitor cell is connected to the leakage level of a described N channel transistor 402, the negative pole of this capacitor cell is connected to the source class of described the 2nd N channel transistor 403, and being used for provides transient current to a N channel transistor 402 and the 2nd N channel transistor 403.Wherein the appearance value of capacitor C 21 and C22 and C31 and C32 is selected, and is identical among type selecting and first embodiment, also can adjust according to side circuit.In addition, the quantity that comprises electric capacity in described second capacitor cell and first capacitor cell can require to change according to circuit design.

When first field effect transistor and second field effect transistor all are the P channel transistor, the first terminal of described first and second field effect transistor is a source class, second terminal is a grid, the 3rd terminal is for leaking level, the circuit structure of one embodiment of the present of invention is as shown in Figure 5: comprise pwm unit 501, the one P channel transistor 502, the 2nd P channel transistor 503, output filter inductance L1, output filter capacitor C1; Also comprise capacitor C 2 and capacitor C 3, capacitor C 2 positive poles are connected to the source electrode of a P channel transistor 502, and negative pole is connected to the drain electrode of the 2nd P channel transistor 503, is used for the noise of filtering pulse width modulation switch power circuit; The positive pole of capacitor C 3 is connected to the source electrode of a described P channel transistor 502, the negative pole of this electric capacity is connected to the drain electrode of described the 2nd P channel transistor 603, and being used for provides transient current to a P channel transistor 502 and the 2nd P channel transistor 603.

When first field effect transistor is the N channel transistor, when second field effect transistor all was the P channel transistor, the first terminal of described first field effect transistor was for leaking level, and second terminal is a grid, and the 3rd terminal is a source class; The first terminal of described second field effect transistor is a source class; Second terminal is a grid, and the 3rd terminal is for leaking level; The circuit structure of one embodiment of the present of invention is as shown in Figure 6: comprise pwm unit 601, N channel transistor 602, P channel transistor 603, output filter inductance L1, output filter capacitor C1; Also comprise capacitor C 2 and capacitor C 3, capacitor C 2 positive poles are connected to the leakage level of N channel transistor 602, and negative pole is connected to the drain electrode of P channel transistor 603, is used for the noise of filtering pulse width modulation switch power circuit; The positive pole of capacitor C 3 is connected to the leakage level of described N channel transistor 602, and the negative pole of this electric capacity is connected to the drain electrode of described P channel transistor 603, and being used for provides transient current to N channel transistor 602 and P channel transistor 603.

When first field effect transistor is the P channel transistor, when second field effect transistor all was the N channel transistor, the first terminal of described first field effect transistor was a source class, and second terminal is a grid, and the 3rd terminal is for leaking level; The first terminal of described second field effect transistor is for leaking level; Second terminal is a grid, and the 3rd terminal is a source class.The circuit structure of one embodiment of the present of invention is as shown in Figure 7: comprise pwm unit 701, N channel transistor 702, P channel transistor 703, output filter inductance L1, output filter capacitor C1; Also comprise capacitor C 2 and capacitor C 3, capacitor C 2 positive poles are connected to the source electrode of N channel transistor 702, and negative pole is connected to the source electrode of P channel transistor 703, is used for the noise of filtering pulse width modulation switch power circuit; The positive pole of capacitor C 3 is connected to the source electrode of described N channel transistor 702, and the negative pole of this electric capacity is connected to the source electrode of described P channel transistor 703, and being used for provides transient current to N channel transistor 702 and P channel transistor 703.

The above only is a preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1, a kind of pulse width modulation switch power circuit comprises:

Pwm unit, first field effect transistor, second field effect transistor, filter unit,

Described pwm unit comprises: first control signal output ends and second control signal output ends, wherein, described first control signal output ends links to each other with second terminal of first field effect transistor, be used to control the conducting of first field effect transistor or end, described second control signal output ends links to each other with second terminal of second field effect transistor, is used to control the conducting of second field effect transistor or end; The first terminal of described first field effect transistor links to each other with external power source, the 3rd terminal of described second field effect transistor links to each other with earth potential, the 3rd terminal of described first field effect transistor links to each other with the first terminal of described second field effect transistor, and is connected to circuit output end by described filter unit

It is characterized in that, also comprise first capacitor cell, described first capacitor cell comprises at least one electric capacity, the positive pole of this capacitor cell is connected to the first terminal of described first field effect transistor, the negative pole of this capacitor cell is connected to the 3rd terminal of described second field effect transistor, and the residing position of described first capacitor cell must make its discharging current arrive first field effect transistor, first end before the rising of first control signal is finished.

2. pulse width modulation switch power circuit according to claim 1, it is characterized in that, also comprise second capacitor cell, described second capacitor cell comprises at least one electric capacity, this capacitor cell positive pole is connected to the first terminal of first field effect transistor, negative pole is connected to the 3rd terminal of second field effect transistor, is used for the noise of filtering pulse width modulation switch power circuit.

3, as pulse width modulation switch power circuit as described in the claim 2, it is characterized in that the electric capacity in described first capacitor cell is Surface Mount tantalum electric capacity or plug-in mounting electrochemical capacitor.

4, as pulse width modulation switch power circuit as described in the claim 4, it is characterized in that the appearance value of described Surface Mount tantalum electric capacity or plug-in mounting electrochemical capacitor is 220uF to 1000uF.

5, as pulse width modulation switch power circuit as described in the claim 2, it is characterized in that the electric capacity in described second capacitor cell is the Surface Mount ceramic condenser.

6, as pulse width modulation switch power circuit as described in the claim 5, it is characterized in that the appearance value of described Surface Mount ceramic condenser is 1uF to 10uF.

7, as pulse width modulation switch power circuit as described in the claim 2, it is characterized in that, on circuit board, the orientation of the chip pin that the chip pin of the first terminal correspondence of described first field effect transistor and described second field effect transistor the 3rd terminal are corresponding is identical.

8, as pulse width modulation switch power circuit as described in the claim 2, it is characterized in that described second capacitor cell, described first capacitor cell, first field effect transistor and second field effect transistor are on the same surface of circuit board.

9, as pulse width modulation switch power circuit as described in the claim 2, it is characterized in that described second capacitor cell is close to described first field effect transistor and second field effect transistor than first capacitor cell.

10, as pulse width modulation switch power circuit as described in the claim 2, it is characterized in that described first capacitor cell is close to described first field effect transistor and second field effect transistor than second capacitor cell.

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