CN202334294U - Electronic equipment and switch power supply start-up circuit thereof - Google Patents

Abstract

The utility model provides a switch power supply start-up circuit, which is used for controlling a charging process of a charging capacitor connected with a power supply input end of a control chip and comprises a transformer, a start-up resistor, a power transistor and a charging control circuit, wherein the transformer provides input voltage; the start-up resistor is used for converting the input voltage into input current; the power transistor is used for amplifying the current and then outputting the current to the charging capacitor; and the charging control circuit is used for detecting and keeping charging current of the charging capacitor. According to the utility model, the purpose of obviously reducing several times of power consumption, even dozens of times, is achieved; the control chip can be started rapidly; the charging control circuit in the utility model is simple in structure; original necessary devices of the circuit are smartly adopted; the circuit cost is hardly increased; but, the power consumption can be greatly reduced; furthermore, the start-up time of the control chip can be shortened; and rigorous standby power consumption requirements of the current switch power supply are achieved.

Description

Electronic equipment and Switching Power Supply start-up circuit thereof

Technical field

The utility model relates to the charging technique field, specially refers to electronic equipment and Switching Power Supply start-up circuit thereof.

Background technology

Be becoming tight world energy supplies day at present, requiring effectively to utilize the limited energy to become people's common recognition under the background that energy-conservation cry grows to even greater heights.Like the stand-by power consumption of charger, former Pyatyi energy consumption standard is that stand-by power consumption is less than 300mW.Present standard be stand-by power consumption less than 100mW, even encourage stand-by power consumption is accomplished 5 energy source of star standards less than 30mW, predictably, following more and more tighter for the requirement meeting of stand-by power consumption.

In the stand-by power consumption; The starting resistance loss accounts for wherein most important part; In the present electronic equipment, for example LED driving power, charger for mobile phone, networking products power supply adaptor, electromagnetic oven and various household electrical appliances, Switching Power Supply start-up circuit wherein mainly charge for the VCC electric capacity that is connected with the control chip input supply terminal through a high voltage startup resistance; After charging voltage reached the set inside threshold value, control chip started.After executive circuit started, starting resistance had not had function with relevant start-up circuit.With reference to Fig. 1, be the structural representation of a Switching Power Supply start-up circuit in the prior art, it mainly comprises transformer T1, high voltage startup resistance R 1, triode Q1 and VCC capacitor C 1.One end of high voltage startup resistance R 1 connects transformer T1, and the voltage transitions that transformer T1 is exported is an electric current, directly fills to VCC capacitor C 1, and after the charging voltage of VCC capacitor C 1 reached the set inside threshold value, control chip started.Its shortcoming is for present 220V civil power (reaching 320-350V after the rectification): in order to reach the purpose that circuit starts fast, can only adopt less starting resistance, will cause starting resistance and interlock circuit power consumed greatly (more than the 100mW) like this; If but consider the bigger starting resistance of purpose of energy saving use; To cause start-up time long (more than 5 seconds, and instructions for use can not be higher than 3 seconds), also can't reach instructions for use; So can not adopt, therefore common start-up circuit can not satisfy current energy requirement.At present if satisfy the requirement of the energy, then necessary employing complicated circuitry, or the above semiconductor process line of employing 650V; Use injectron that starting resistance circuit and high-tension circuit are broken off in the intact back of circuit start; Reduce power consumption, thus, cause the cost of circuit to increase greatly.

The utility model content

The main purpose of the utility model provides a kind of Switching Power Supply start-up circuit, is intended to solve the Switching Power Supply start-up circuit complex structure that can satisfy energy conservation standard efficient, green in the prior art, the technical problem that cost is too high.

For the technical solution problem, the utility model provides a kind of Switching Power Supply start-up circuit, is used to control the charging process of the charging capacitor that is connected with the input supply terminal of control chip, comprises transformer, starting resistance, power tube and charging control circuit, wherein,

Said transformer provides input voltage;

Said starting resistance converts said input voltage into input current;

Said power tube exports charging capacitor to after said electric current is amplified;

Said charging control circuit detects and keeps the charging current of charging capacitor.

Preferably, the output of said control chip is connected with the input of power tube;

Said starting resistance one end is connected with transformer, and the other end is connected with the input of said charging control circuit;

The output of said charging control circuit and the other end of starting resistance connect the input of power tube jointly.

Preferably, the output of said control chip is connected with the input of power tube;

Said starting resistance one end is connected with transformer, and the other end is connected with the input of said power tube;

The input of said charging control circuit is connected with the output of said power tube, and the output of said charging control circuit is connected with said charging capacitor.

Preferably, said charging control circuit comprises first switch, second switch, bias current generation device and comparator, wherein,

One end of said first switch is connected with the control end of control chip, the other end and the output that connects power tube after second switch is connected;

The other end of said second switch is connected with the input of bias current generation device;

The output of said bias current generation device is connected with charging capacitor;

Said comparator is used for the charging voltage of charging capacitor is compared with the reference voltage that presets, and according to the comparative result output switching signal, controls first switch or second switch opened/closed.

Preferably, said power tube is triode or metal-oxide-semiconductor.

Preferably, said comparator has power voltage terminal, and said power voltage terminal is connected with the input supply terminal of control chip.

The utility model provides a kind of electronic equipment in addition; It comprises the Switching Power Supply start-up circuit, and this Switching Power Supply start-up circuit is used to control the charging process of the charging capacitor that is connected with the input supply terminal of control chip, comprises transformer, starting resistance, power tube and charging control circuit; Wherein

Said transformer provides input voltage;

Said starting resistance converts said input voltage into input current;

Said power tube exports charging capacitor to after said electric current is amplified;

Said charging control circuit detects and keeps the charging current of charging capacitor.

Preferably, said electronic equipment is mobile phone, electromagnetic oven or mobile unit.

The utility model uses the injectron (being power tube) that must use on the former switching power circuit (injectron is not worked in the start-up course at control chip originally) when starting; Starting resistance is connected the base stage of triode or the grid of metal-oxide-semiconductor; In start-up course, starting current is amplified the back and give the charging of startup electric capacity; So starting resistance can increase more than 10 times; Thereby can the power consumption of starting resistance when the standby be reduced by ten times even tens of times: through actual test, common start-up circuit standby consumes more than the 100mW, and power consumption is reduced in the 5-10mW significantly after using the utility model circuit.After having started, injectron can be realized prior function again, gets into the switch motion by PWM control, has reached present standard of energy very cleverly and has required the switching power unit stand-by power consumption to be lower than the requirement of 100mW.And this utility model application circuit is simple in structure, and comparing with common start-up circuit does not increase components and parts (mainly having utilized the injectron that only when operate as normal, just plays a role originally to participate in starting) basically, and cost is low.In addition,, can shorten the start-up time of control chip, satisfy Switching Power Supply and be close to harsh requirement owing to be provided with charging control circuit.

Description of drawings

Fig. 1 is the structural representation of Switching Power Supply start-up circuit in the prior art;

Fig. 2 is the electrical block diagram of the utility model Switching Power Supply start-up circuit one execution mode;

Fig. 3 is the electrical block diagram of another execution mode of the utility model Switching Power Supply start-up circuit;

Fig. 4 is the electrical block diagram of the utility model Switching Power Supply start-up circuit one embodiment;

Fig. 5 is the electrical block diagram of another embodiment of the utility model Switching Power Supply start-up circuit.

The realization of the utility model purpose, functional characteristics and advantage will combine embodiment, further specify with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

With reference to Fig. 2, Fig. 2 is the structural representation of the utility model Switching Power Supply start-up circuit one embodiment.This Switching Power Supply start-up circuit is used to control the charging process of the charging capacitor C1 that is connected with the input supply terminal of control chip, comprises transformer T1, starting resistance R1, triode Q1 and charging control circuit.Wherein, transformer T1 is used to provide input voltage; Starting resistance R1 is used for converting input voltage into input current; Triode Q1 exports charging capacitor C1 to after electric current is amplified; Charging control circuit is used to detect and keep the charging current of charging capacitor C1.Concrete connected mode is:

Triode Q1 base stage meets the output I-drive of control chip, and collector electrode is connected to high-pressure side through transformer T1, and emitter meets charging capacitor C1; The output I-drive of the output of charging control circuit and control chip connects the base stage of triode Q1 jointly, input termination starting resistance R1.

After powering on, high pressure produces electric current through starting resistance R1, and electric current flows into the base stage of triode Q1 through charging control circuit; Behind triode Q1, electric current can be exaggerated more than 20 times, charges to charging capacitor C1; When charging capacitor voltage reached set threshold voltage, control circuit was started working.Charging control circuit is used for detecting the charging current of charging capacitor C1, makes charging current maintain suitable size, to control start-up time in suitable scope.

The injectron that must use when the utility model adopts operate as normal on the former switching power circuit; Be allowed to condition at and start mode that moment amplifies starting current and give and start electric capacity charging (switching tube is only getting into operating state after startup originally); So starting resistance can increase more than 10 times, thereby can the power consumption of starting resistance when the standby be reduced more than 10 times, reach the requirement that present standard of energy standby is lower than 100mW very cleverly; Use lower cost to solve and want to solve the technical problem that does not but have solution in the prior art always; And owing to do not increase components and parts basically, the utility model Switching Power Supply start-up circuit is simple in structure; The relative prior art of cost greatly reduces.In addition,, be able to control start-up time, can shorten the start-up time of control chip, reach the harsh stand-by power consumption requirement of present Switching Power Supply owing to be provided with charging control circuit.

With reference to Fig. 3, in one embodiment, circuit structure also can be as shown in Figure 3, the emitter of the input triode Q1 of charging control circuit, and output connects charging capacitor C1.Should be noted that in the utility model that power tube can also can be metal-oxide-semiconductor for triode.During for triode, the output of power tube refers to the emitter of triode, and input refers to base stage; During for metal-oxide-semiconductor, the output of power tube refers to that the source electrode of metal-oxide-semiconductor, input refer to the grid of metal-oxide-semiconductor.

With reference to Fig. 4, in one embodiment, charging control circuit 200 specifically comprises:

First switch 205, second switch 206, bias current generation device 207 and comparator 208, wherein,

One end of first switch 205 is connected with the control end Cs of control chip 209, the other end and the output that connects triode 202 after second switch 206 is connected;

The other end of second switch 206 is connected with the input of bias current generation device 207;

The output of bias current generation device 207 is connected with charging capacitor 204;

Comparator 208 is used for the charging voltage of charging capacitor 204 is compared with the reference voltage that presets, and according to the comparative result output switching signal, controls first switch 205 or second switch 206 opened/closed.Concrete, comparator 208 has power voltage terminal Vcc, and power voltage terminal Vcc is connected with the input supply terminal VCC of control chip.Workflow is following:

After powering on, high pressure produces starting current through starting resistance 203, and starting current flows into the base stage of triode Q1; The voltage of VCC charging capacitor 204 is zero at this moment, and comparator 208 output SW switching signals are opened first switch 205, closed second switch 206; After being exaggerated more than 10 times, passes through in electric current second switch 206; To 204 chargings of VCC charging capacitor, after the voltage of charging capacitor 204 reached set threshold voltage vstart, comparator 208 output SW switching signals were opened second switch 206; Closed first switch 205, control circuit 209 beginning operate as normal at this moment.

With reference to Fig. 5, in one embodiment, power tube is a metal-oxide-semiconductor, and its grid meets the output V-drive of control chip 209, and source electrode connects the common ends of first switch 205 and second switch 206, and drain electrode connects transformer 201.

The utility model provides a kind of electronic equipment in addition; This electronic equipment can be the LED driving power;, charger for mobile phone, networking products power supply adaptor,, electromagnetic oven and various household electrical appliances etc., it comprises above-mentioned Switching Power Supply start-up circuit; The structure of this Switching Power Supply start-up circuit and operation principle specifically can just not be described further at this referring to earlier figures 2～embodiment illustrated in fig. 5.In the utility model electronic equipment, owing to have aforementioned switches power initiation circuit, power consumption is minimized, and toggle speed is able to accelerate.

More than be merely the preferred embodiment of the utility model; Be not thus the restriction the utility model claim; Every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to be done; Or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the utility model.

Claims (8)

1. a Switching Power Supply start-up circuit is characterized in that, is used to control the charging process of the charging capacitor that is connected with the input supply terminal of control chip, comprises transformer, starting resistance, power tube and charging control circuit, wherein,

Said transformer provides input voltage;

Said starting resistance converts said input voltage into input current;

Said power tube exports charging capacitor to after said electric current is amplified;

Said charging control circuit detects and keeps the charging current of charging capacitor.

2. Switching Power Supply start-up circuit as claimed in claim 1 is characterized in that,

The output of said control chip is connected with the input of power tube;

Said starting resistance one end is connected with transformer, and the other end is connected with the input of said charging control circuit;

The output of said charging control circuit and the other end of starting resistance connect the input of power tube jointly.

3. Switching Power Supply start-up circuit as claimed in claim 1 is characterized in that,

The output of said control chip is connected with the input of power tube;

Said starting resistance one end is connected with transformer, and the other end is connected with the input of said power tube;

The input of said charging control circuit is connected with the output of said power tube, and the output of said charging control circuit is connected with said charging capacitor.

4. Switching Power Supply start-up circuit as claimed in claim 3 is characterized in that, said charging control circuit comprises first switch, second switch, bias current generation device and comparator, wherein,

One end of said first switch is connected with the control end of control chip, the other end and the output that connects power tube after second switch is connected;

The other end of said second switch is connected with the input of bias current generation device;

The output of said bias current generation device is connected with charging capacitor;

Said comparator is used for the charging voltage of charging capacitor is compared with the reference voltage that presets, and according to the comparative result output switching signal, controls first switch or second switch opened/closed.

5. Switching Power Supply start-up circuit as claimed in claim 1 is characterized in that, said power tube is triode or metal-oxide-semiconductor.

6. Switching Power Supply start-up circuit as claimed in claim 1 is characterized in that said comparator has power voltage terminal, and said power voltage terminal is connected with the input supply terminal of control chip.

7. an electronic equipment is characterized in that, comprises like each described Switching Power Supply start-up circuit in the claim 1 to 6.

8. electronic equipment as claimed in claim 7 is characterized in that, said electronic equipment is mobile phone, electromagnetic oven or mobile unit.

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